Innovation of the Year 2025

With a productivity increase of +50% compared to current standards, CCM64MD achieves a production performance never seen before: up to 2,850 capsules per minute, or 171,000 caps per hour, with only 64 molds. With this very high capacity, a single CCM64MD satisfies two of the fastest bottling lines on the market (80,000 bottles/hour) CCM64MD reduces specific energy consumption by 15% compared to previous generations of CCMs, which were already market leaders in this area. This manufacturer's new benchmark is 0.43 kWh/kg, which, in terms of emissions, corresponds to the saving of 8 tons of CO₂ equivalent every year with the same production. With the advantages of productivity and sustainability, CCM64MD maintains the ease of use that makes SACMI machines the market standard. In fact, the operation of this new CCM is the same as the machines currently on the market. Moreover, the newly designed HMI shortens the operator's learning curve, making process control even easier and more intuitive.

With a productivity increase of +50% compared to current standards, CCM64MD achieves a production performance never seen before: up to 2,850 capsules per minute, or 171,000 caps per hour, with only 64 molds. With this very high capacity, a single CCM64MD satisfies two of the fastest bottling lines on the market (80,000 bottles/hour)

CCM64MD reduces specific energy consumption by 15% compared to previous generations of CCMs, which were already market leaders in this area. This manufacturer's new benchmark is 0.43 kWh/kg, which, in terms of emissions, corresponds to the saving of 8 tons of CO₂ equivalent every year with the same production. With the advantages of productivity and sustainability, CCM64MD maintains the ease of use that makes SACMI machines the market standard. In fact, the operation of this new CCM is the same as the machines currently on the market. Moreover, the newly designed HMI shortens the operator's learning curve, making process control even easier and more intuitive.

Application: Packaging| Food & Beverage

With Asano's advanced heat-set technology, the mold temperature can be set to 120°C, ensuring that formed products maintain their shape without deformation. The key advantage is that it enhances the heat resistance of polylactic acid (PLA), a biodegradable material, allowing it to withstand temperatures of up to 100°C under special conditions.

With Asano's advanced heat-set technology, the mold temperature can be set to 120°C, ensuring that formed products maintain their shape without deformation. The key advantage is that it enhances the heat resistance of polylactic acid (PLA), a biodegradable material, allowing it to withstand temperatures of up to 100°C under special conditions.

Application: Packaging| Food & Beverage

A commercial vehicle air tank co-created with WAL Low Carbon Technology (Anhui) Co. Ltd (WAL) and made with BASF's high-performance material solution Ultramid® polyamide. The innovative solution achieves a weight reduction of 10-20% compared to aluminum alternatives and over 50% compared to steel versions. Production of the air tank is also more energy efficient, since it only needs a one-piece injection molding process. This eliminates the need for secondary welding operations that are typically required for metal versions. Combined with its high burst pressure resistance above 50 bar (5MPa), the solution demonstrates consistent product quality and reliability in this demanding application.

A commercial vehicle air tank co-created with WAL Low Carbon Technology (Anhui) Co. Ltd (WAL) and made with BASF's high-performance material solution Ultramid® polyamide. The innovative solution achieves a weight reduction of 10-20% compared to aluminum alternatives and over 50% compared to steel versions. Production of the air tank is also more energy efficient, since it only needs a one-piece injection molding process. This eliminates the need for secondary welding operations that are typically required for metal versions. Combined with its high burst pressure resistance above 50 bar (5MPa), the solution demonstrates consistent product quality and reliability in this demanding application.

Application: Automotive

Battery separator film production line for highest efficiency. The new BSF 500+ separator line is especially designed for thin base film production with high mechanical properties.

Battery separator film production line for highest efficiency. The new BSF 500+ separator line is especially designed for thin base film production with high mechanical properties.

Application: Automotive| New Energy

The clamping mechanism has been comprehensively optimized with a linear guide rail design, ensuring smooth operation, quick mold changes, and efficient production. The new high-efficiency screw assembly enhances plasticizing performance, improves injection repeatability, reduces material accumulation, and effectively minimizes product defects such as black spots and yellowing. The lubrication system has been redesigned for a more stable machine operation and extended service life.

The clamping mechanism has been comprehensively optimized with a linear guide rail design, ensuring smooth operation, quick mold changes, and efficient production. The new high-efficiency screw assembly enhances plasticizing performance, improves injection repeatability, reduces material accumulation, and effectively minimizes product defects such as black spots and yellowing. The lubrication system has been redesigned for a more stable machine operation and extended service life.

Application: E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Optoelectronics| Medical

HRTP4000 can provide high heat resistance, wear resistance, and high flexibility of the final product through differentiated technical features such as ultra-high molecular weight and high porosity compared to existing general-purpose products. It is being commercialized by applying it to EV charging cables, automotive high-heat-resistant wires, wear-resistant flooring and automotive high flexible artificial leather. Improved flexibility can provide convenience for charging users and improved heat/cold resistance overcomes the limitations of use in extreme environments of wires. In addition, improved wear resistance extended the life of the flooring and Soft-touch improvements made it possible to replace other materials in automotive leather.

HRTP4000 can provide high heat resistance, wear resistance, and high flexibility of the final product through differentiated technical features such as ultra-high molecular weight and high porosity compared to existing general-purpose products. It is being commercialized by applying it to EV charging cables, automotive high-heat-resistant wires, wear-resistant flooring and automotive high flexible artificial leather. Improved flexibility can provide convenience for charging users and improved heat/cold resistance overcomes the limitations of use in extreme environments of wires. In addition, improved wear resistance extended the life of the flooring and Soft-touch improvements made it possible to replace other materials in automotive leather.

Application: Automotive| Building Materials

ACERETECH's rPET Food-Grade Decontamination Pelletizing System integrates predrying, compaction, extrusion, filtration, and pelletizing into a single process. This technology allows for 100% utilization of rPET material. The resulting pellets are melt-filtered, uniform, and dry, with flow characteristics similar to virgin resin. Solid-State Polycondensation (SSP) The continuous Solid-State Polycondensation process increases the viscosity of PET by adjusting the residence time in the reactor. This process also ensures purification, with an FDA no-objection letter issued in May 2024. The final product is crystalline pellets with properties comparable to virgin resin. The system meets food-contact applications under the following Conditions of Use: C-H A. High temperature heat-sterilized (e.g., over 212 deg. F). B. Boiling water sterilized. C. Hot filled or pasteurized above 150 deg. F. D. Hot filled or pasteurized below 150 deg. F. E. Room temperature filled and stored (no thermal treatment in the container). F. Refrigerated storage (no thermal treatment in the container). G. Frozen storage (no thermal treatment in the container). H. Frozen or refrigerated storage: Ready-prepared foods intended to be reheated in container at time of use: 1. Aqueous or oil-in-water emulsion of high- or low-fat; 2. Aqueous, high- or low-free oil or fat.

ACERETECH's rPET Food-Grade Decontamination Pelletizing System integrates predrying, compaction, extrusion, filtration, and pelletizing into a single process. This technology allows for 100% utilization of rPET material. The resulting pellets are melt-filtered, uniform, and dry, with flow characteristics similar to virgin resin.

Solid-State Polycondensation (SSP)
The continuous Solid-State Polycondensation process increases the viscosity of PET by adjusting the residence time in the reactor. This process also ensures purification, with an FDA no-objection letter issued in May 2024. The final product is crystalline pellets with properties comparable to virgin resin. The system meets food-contact applications under the following Conditions of Use: C-H
A. High temperature heat-sterilized (e.g., over 212 deg. F).
B. Boiling water sterilized.
C. Hot filled or pasteurized above 150 deg. F.
D. Hot filled or pasteurized below 150 deg. F.
E. Room temperature filled and stored (no thermal treatment in the container).
F. Refrigerated storage (no thermal treatment in the container).
G. Frozen storage (no thermal treatment in the container).
H. Frozen or refrigerated storage: Ready-prepared foods intended to be reheated in container at time of use: 1. Aqueous or oil-in-water emulsion of high- or low-fat; 2. Aqueous, high- or low-free oil or fat.

Application: Food & Beverage

The specific torque density reaches 15 Nm/cm³, with a maximum screw speed of 900 rpm. The compact structure enables low noise levels (≤80 dB(A)), and the transmission efficiency is ≥95%. The barrel features a nickel-based powder alloy sintered liner, which is wear- and corrosion-resistant and patent-pending. The new spiral cooling channel enhances cooling efficiency and minimizes deformation. For temperature control, it is equipped with an imported CO-AX coaxial valve, while heating is provided by an imported heating rod, ensuring high efficiency and long service life. The screw elements are made of hot isostatic pressed (HIP) material, offering 2-3 times the wear and corrosion resistance compared to domestic materials. The screw shaft is constructed from high-strength, high-toughness imported alloy steel, delivering excellent mechanical properties.With an optimized overall design, the system enhances transmission efficiency and operational stability.

The specific torque density reaches 15 Nm/cm³, with a maximum screw speed of 900 rpm. The compact structure enables low noise levels (≤80 dB(A)), and the transmission efficiency is ≥95%.

The barrel features a nickel-based powder alloy sintered liner, which is wear- and corrosion-resistant and patent-pending. The new spiral cooling channel enhances cooling efficiency and minimizes deformation. For temperature control, it is equipped with an imported CO-AX coaxial valve, while heating is provided by an imported heating rod, ensuring high efficiency and long service life. The screw elements are made of hot isostatic pressed (HIP) material, offering 2-3 times the wear and corrosion resistance compared to domestic materials. The screw shaft is constructed from high-strength, high-toughness imported alloy steel, delivering excellent mechanical properties.With an optimized overall design, the system enhances transmission efficiency and operational stability.

Application: Aerospace, Aviation, Railway Transport| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Medical

DURAFIDE® PPS 1140HS6, developed by Polyplastics, represents a breakthrough achievement in material unification while significantly enhancing heat shock resistance. Through innovative material design research, this grade maintains ISO standard PPS >PPS-GF40< specifications while delivering improved heat shock resistance and maintaining excellent mechanical and fundamental properties. Technical Innovations: - Advanced material design reducing internal strain during molding - Superior heat shock resistance without impact modifiers - Maintains strength equivalent to conventional GF40% materials Performance Excellence: - Outstanding performance in rigorous heat shock testing (-40℃⇔140℃ cycling) - Superior flowability and low warpage characteristics - Significantly reduced mold contamination Environmental and Practical Benefits: - Excellent recyclability as a single GF40% material - Post-consumer recycling (PCR) is possible without separation from other PPS components - Ideal for demanding applications in new energy vehicles This development represents a significant step forward in sustainable engineering plastics, offering both environmental benefits and high-performance characteristics.

DURAFIDE® PPS 1140HS6, developed by Polyplastics, represents a breakthrough achievement in material unification while significantly enhancing heat shock resistance. Through innovative material design research, this grade maintains ISO standard PPS >PPS-GF40< specifications while delivering improved heat shock resistance and maintaining excellent mechanical and fundamental properties.

Technical Innovations:
- Advanced material design reducing internal strain during molding
- Superior heat shock resistance without impact modifiers
- Maintains strength equivalent to conventional GF40% materials

Performance Excellence:
- Outstanding performance in rigorous heat shock testing (-40℃⇔140℃ cycling)
- Superior flowability and low warpage characteristics
- Significantly reduced mold contamination

Environmental and Practical Benefits:
- Excellent recyclability as a single GF40% material
- Post-consumer recycling (PCR) is possible without separation from other PPS components
- Ideal for demanding applications in new energy vehicles

This development represents a significant step forward in sustainable engineering plastics, offering both environmental benefits and high-performance characteristics.

Application: Automotive

ENMA Crusher is a cutting-edge modular plastic shredder designed to simplify the waste plastic recycling process while increasing versatility and efficiency. It can handle various types, shapes, sizes and weights of plastic materials with a single machine. Its module components can be easily separated, making it suitable for both global markets and various production scales. It is with multiple technical protections and safety interlocks ensuring the safety of operators during both operation and maintenance. Whether recycling pallets, bales, lumps or synthetic fibers, EnMa Crusher can be configured to efficiently process a wide range of materials, maximizing captaincy and minimizing downtime. Combined with its energy-saving design, supports a greener, more sustainable future of the plastic recycling industry.

ENMA Crusher is a cutting-edge modular plastic shredder designed to simplify the waste plastic recycling process while increasing versatility and efficiency. It can handle various types, shapes, sizes and weights of plastic materials with a single machine. Its module components can be easily separated, making it suitable for both global markets and various production scales.

It is with multiple technical protections and safety interlocks ensuring the safety of operators during both operation and maintenance.

Whether recycling pallets, bales, lumps or synthetic fibers, EnMa Crusher can be configured to efficiently process a wide range of materials, maximizing captaincy and minimizing downtime. Combined with its energy-saving design, supports a greener, more sustainable future of the plastic recycling industry.

Application: Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Medical

The highest speed of ShaanxiBeiren 2025 model intelligent Rotogravure printing machine is 450m/min, which has excellent printing performance. The human-machine engineering and safety engineering of the equipment have been comprehensively upgraded, and new energy management and health management systems have been added to adapt to the high-speed printing of ink and water and the high-speed printing of special stretchable materials. It has the following characteristics: ① Full-automatic overprinting can save 20% of the time and reduce the loss by 60%. ② The overprinting accuracy is ±0.05mm. There is zero loss during acceleration, deceleration and overprinting, and the loss during cutting and material changing is less than 10 meters. ③ The ink will not splash, saving about 60% of the solvent. ④ Intelligent operation, energy conservation and emission reduction, saving more than 50% of the energy consumption. ⑤ The equipment reduces the dependence on people and lowers the labor cost. ⑥ The maximum exhaust air volume of the equipment is less than 15,000m³/h, effectively improving the workshop environment and saving more than 20% of energy. ⑦ It can meet the high-speed printing of 22μm ultra-thin PE. ⑧ During high-speed printing at 450m/min, the loss of waste from cutting is less than 10 meters, and the yield rate is greatly improved.

The highest speed of ShaanxiBeiren 2025 model intelligent Rotogravure printing machine is 450m/min, which has excellent printing performance. The human-machine engineering and safety engineering of the equipment have been comprehensively upgraded, and new energy management and health management systems have been added to adapt to the high-speed printing of ink and water and the high-speed printing of special stretchable materials.

It has the following characteristics:
① Full-automatic overprinting can save 20% of the time and reduce the loss by 60%.
② The overprinting accuracy is ±0.05mm. There is zero loss during acceleration, deceleration and overprinting, and the loss during cutting and material changing is less than 10 meters.
③ The ink will not splash, saving about 60% of the solvent.
④ Intelligent operation, energy conservation and emission reduction, saving more than 50% of the energy consumption.
⑤ The equipment reduces the dependence on people and lowers the labor cost.
⑥ The maximum exhaust air volume of the equipment is less than 15,000m³/h, effectively improving the workshop environment and saving more than 20% of energy.
⑦ It can meet the high-speed printing of 22μm ultra-thin PE.
⑧ During high-speed printing at 450m/min, the loss of waste from cutting is less than 10 meters, and the yield rate is greatly improved.

Application: Packaging

Ultramid® T6000 bridges the gap between traditional PA66 and PA6T, offering superior mechanical and dielectric properties, particularly in humid conditions and at elevated temperatures. Its easy processing and low corrosion on tools make it the preferred choice for complex automotive applications. With its wide range of pre-color options, including vibrant shades, Ultramid® T6000 enhances aesthetic flexibility while maintaining high performance standards. The FR grade of Ultramid® T6000 is specifically designed for EV applications, offering exceptional high strength ideal for terminal block use. This innovative material enhances the durability of electrical systems in new energy vehicles by withstanding thermal shock from -40°C to 150°C for 1,000 cycles and provides excellent electrical isolation for terminal blocks and high voltage busbars, significantly improving safety on the vehicle's 800V platform. A standout feature is its non-halogenated flame retardant, which minimizes the risk of metal corrosion and meets stringent safety standards, ensuring protection for vehicle occupants in the event of a fire. Additionally, its remarkable strength, stiffness, and dimensional stability allow for the creation of complex designs that can endure the rigors of automotive assembly, while also facilitating the integration of multiple functions into single components, ultimately simplifying assembly and enhancing space efficiency in EVs.

Ultramid® T6000 bridges the gap between traditional PA66 and PA6T, offering superior mechanical and dielectric properties, particularly in humid conditions and at elevated temperatures. Its easy processing and low corrosion on tools make it the preferred choice for complex automotive applications. With its wide range of pre-color options, including vibrant shades, Ultramid® T6000 enhances aesthetic flexibility while maintaining high performance standards.

The FR grade of Ultramid® T6000 is specifically designed for EV applications, offering exceptional high strength ideal for terminal block use. This innovative material enhances the durability of electrical systems in new energy vehicles by withstanding thermal shock from -40°C to 150°C for 1,000 cycles and provides excellent electrical isolation for terminal blocks and high voltage busbars, significantly improving safety on the vehicle's 800V platform. A standout feature is its non-halogenated flame retardant, which minimizes the risk of metal corrosion and meets stringent safety standards, ensuring protection for vehicle occupants in the event of a fire.

Additionally, its remarkable strength, stiffness, and dimensional stability allow for the creation of complex designs that can endure the rigors of automotive assembly, while also facilitating the integration of multiple functions into single components, ultimately simplifying assembly and enhancing space efficiency in EVs.

Application: New Energy

Major technological breakthroughs: 1) Solventless and dry lamination processes realize fusion application and free switching on the same triplex machine for the first time; 2) Digital semi-flexible coating system is adopted to improve coating accuracy and flexibility; 3) The use of ultra-short oven and series drying mode, improve the drying speed and energy efficiency, can be a large amount of solvent consumption; 4) Online energy measurement of carbon, providing real-time data for carbon footprint calculation. Greatest advantage: Fill the gap of similar models; The best process scheme can be obtained by combining the advantages of the two processes. Significantly increase speed, increase efficiency and reduce carbon. Benefits for users: Can be applied to a variety of functional or high-quality lamination, is a wider use, more efficient, more flexible is a new type of equipment!

Major technological breakthroughs:
1) Solventless and dry lamination processes realize fusion application and free switching on the same triplex machine for the first time;
2) Digital semi-flexible coating system is adopted to improve coating accuracy and flexibility;
3) The use of ultra-short oven and series drying mode, improve the drying speed and energy efficiency, can be a large amount of solvent consumption;
4) Online energy measurement of carbon, providing real-time data for carbon footprint calculation.

Greatest advantage:
Fill the gap of similar models; The best process scheme can be obtained by combining the advantages of the two processes. Significantly increase speed, increase efficiency and reduce carbon.

Benefits for users:
Can be applied to a variety of functional or high-quality lamination, is a wider use, more efficient, more flexible is a new type of equipment!

Application: Packaging| Daily Chemicals

As the first domestic LCP material supplier, Kingfa is focusing on the innovative technology to drive the sustainable development of society. The developed new generation of the low-carbon-emission Vicryst® LCP CER-B, based on the mass balance method, possesses at least 70% renewable component and contributes to at least 30% carbon emission reduction. Meanwhile, Vicryst® LCP CER-B maintain the same property and performance as the traditional oil based LCP material. In this way, it works better to keep a balance between the environmental protection and properties of material.

As the first domestic LCP material supplier, Kingfa is focusing on the innovative technology to drive the sustainable development of society. The developed new generation of the low-carbon-emission Vicryst® LCP CER-B, based on the mass balance method, possesses at least 70% renewable component and contributes to at least 30% carbon emission reduction. Meanwhile, Vicryst® LCP CER-B maintain the same property and performance as the traditional oil based LCP material. In this way, it works better to keep a balance between the environmental protection and properties of material.

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive

1. Plateless printing – Ideal for high variety, small batch, multi-batch, and variable data production. There's no minimum order quantity requirement. 2. Compared to traditional gravure printing machines, it boosts efficiency by 50%. 3. With a high image resolution of 1200x1200dpi, design is no longer constrained by printing techniques. Complex patterns and delicate hues alike can be flawlessly reproduced on flexible packaging, enhancing the package's visual allure and bringing the brand's personalized touch to life. 4. High-density water-based pigment ink guarantees food safety, high color density, and colorfastness of the printed items. 5. Environmentally friendly with zero VOC emissions.

1. Plateless printing – Ideal for high variety, small batch, multi-batch, and variable data production. There's no minimum order quantity requirement.
2. Compared to traditional gravure printing machines, it boosts efficiency by 50%.
3. With a high image resolution of 1200x1200dpi, design is no longer constrained by printing techniques. Complex patterns and delicate hues alike can be flawlessly reproduced on flexible packaging, enhancing the package's visual allure and bringing the brand's personalized touch to life.
4. High-density water-based pigment ink guarantees food safety, high color density, and colorfastness of the printed items.
5. Environmentally friendly with zero VOC emissions.

Application: Packaging

ZhongyunTech K socket is designed to significantly increase the strength of socket of corrugated pipes by improving the structure of socket. According to testings, the strength of K socket is almost doubled than the common double layer socket. Benefit for users: 1. This new socket design helps to avoid the socket deformation during the storage and transportation of corrugated pipes. 2. It will help to enhance the sealing of corrugated pipes by virtue of ultra-strength, avoid the risk of leakage.

ZhongyunTech K socket is designed to significantly increase the strength of socket of corrugated pipes by improving the structure of socket. According to testings, the strength of K socket is almost doubled than the common double layer socket.

Benefit for users:
1. This new socket design helps to avoid the socket deformation during the storage and transportation of corrugated pipes.
2. It will help to enhance the sealing of corrugated pipes by virtue of ultra-strength, avoid the risk of leakage.

Application: Building Materials| Optoelectronics

LG Chem's Low Glossy ABS can provide superior matte and skin-friendly texture, and cost reduction and efficiency. It is can be used in the case of high-gloss mold, so that the final injection product has a high-level matte texture, the gloss can be ensured in 10~20º (degree). Low Glossy ABS is mainly used in high-end home appliances and other fields. At the same time, matte ABS is closer to skin texture than high-gloss ABS, so it is also known as skin-friendly ABS. At present, LG Chem‘s matte ABS has been widely used in the world's leading home appliance companies and has been well received.

LG Chem's Low Glossy ABS can provide superior matte and skin-friendly texture, and cost reduction and efficiency. It is can be used in the case of high-gloss mold, so that the final injection product has a high-level matte texture, the gloss can be ensured in 10~20º (degree). Low Glossy ABS is mainly used in high-end home appliances and other fields.

At the same time, matte ABS is closer to skin texture than high-gloss ABS, so it is also known as skin-friendly ABS. At present, LG Chem‘s matte ABS has been widely used in the world's leading home appliance companies and has been well received.

Application: E&E, IT & Telecommunication

(1) Simple in Design, Showcasing Industrial Aesthetics; (2) Streamlined Processes, Initiating Efficient Operations; (3) Good Visibility and Accessibility, Facilitating Convenient Maintenance; (4) Energy - efficient Design, Practicing Green Development; (5) Cutting - edge Plasticizing and Injection, Pioneering New Technological Chapters; (6) Intelligent Control Center, Ensuring Efficient Production

(1) Simple in Design, Showcasing Industrial Aesthetics;
(2) Streamlined Processes, Initiating Efficient Operations;
(3) Good Visibility and Accessibility, Facilitating Convenient Maintenance;
(4) Energy - efficient Design, Practicing Green Development;
(5) Cutting - edge Plasticizing and Injection, Pioneering New Technological Chapters;
(6) Intelligent Control Center, Ensuring Efficient Production

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Optoelectronics| Medical

ReliaSil™ UV HCR 241-60 is a low-temperature, UV cure silicone rubber with robust physical properties, suitable for long-term implants. This product utilizes a unique UV catalyst system that enables command-cure flexibility, providing increased cure speeds at ambient temperatures, without sacrificing the physical properties that give silicone elastomers the performance advantage over other room-temperature cure materials. This product is particularly suitable for implants that involve temperature-sensitive additives such as active pharmaceutical ingredients (APIs) or temperature-sensitive components such as batteries. Key features and typical benefits: 1. long-term implantion, >29 days 2. Cure on-demand by UV light 3. Room-temperature cure 4. Reduced shrinkage compared to heat-cured materials 5 Compatible with existing silicone extruders

ReliaSil™ UV HCR 241-60 is a low-temperature, UV cure silicone rubber with robust physical properties, suitable for long-term implants. This product utilizes a unique UV catalyst system that enables command-cure flexibility, providing increased cure speeds at ambient temperatures, without sacrificing the physical properties that give silicone elastomers the performance advantage over other room-temperature cure materials. This product is particularly suitable for implants that involve temperature-sensitive additives such as active pharmaceutical ingredients (APIs) or temperature-sensitive components such as batteries.

Key features and typical benefits:
1. long-term implantion, >29 days
2. Cure on-demand by UV light
3. Room-temperature cure
4. Reduced shrinkage compared to heat-cured materials
5 Compatible with existing silicone extruders

Application: Medical

Multi-component molding is a method in which two or more types of resins are sequentially injected inside the mold boasting higher production efficiency than insert injection or post-processing method. FLEXSHOT is an add-on type multi-injector that is additionally attached to the main injection machine and it's designed to make the customers enter into multi-injection introduction by including various installation methods and high space utilization. Possibility to use in parallel with normal injection products. Advantages: Comparing to the traditional ways for 2k or multi-k injection, it is much more convenient and cost-effective as customer may need to purchase another new 2k injection machine, which is much more expensive and time-consuming. For Flexshot, customer can put it on the sides of the mold, and it can adjust with the secondary nozzle inlets very flexibly. For the mold design it will have less limitations.

Multi-component molding is a method in which two or more types of resins are sequentially injected inside the mold boasting higher production efficiency than insert injection or post-processing method.

FLEXSHOT is an add-on type multi-injector that is additionally attached to the main injection machine and it's designed to make the customers enter into multi-injection introduction by including various installation methods and high space utilization. Possibility to use in parallel with normal injection products.

Advantages: Comparing to the traditional ways for 2k or multi-k injection, it is much more convenient and cost-effective as customer may need to purchase another new 2k injection machine, which is much more expensive and time-consuming. For Flexshot, customer can put it on the sides of the mold, and it can adjust with the secondary nozzle inlets very flexibly. For the mold design it will have less limitations.

Application: E&E, IT & Telecommunication| Automotive| Packaging| Daily Chemicals

The EC series twin-screw extruder is tailor-made for small to medium-scale production users, equipped with a new permanent magnet direct drive motor and an efficient transmission system. Compared to traditional asynchronous motor equipment, energy consumption is reduced by approximately 11%. Whether it's high-efficiency output or quiet operation, the EC series embodies the concept of "just right, is efficient" in every detail. Based on the large-scale production line control architecture, every alarm and every adjustment are clearly visible with precise feedback.

The EC series twin-screw extruder is tailor-made for small to medium-scale production users, equipped with a new permanent magnet direct drive motor and an efficient transmission system. Compared to traditional asynchronous motor equipment, energy consumption is reduced by approximately 11%. Whether it's high-efficiency output or quiet operation, the EC series embodies the concept of "just right, is efficient" in every detail. Based on the large-scale production line control architecture, every alarm and every adjustment are clearly visible with precise feedback.

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Optoelectronics| Medical

The current thin-walled designs for terminals face challenges such as reduced stiffness, diminished toughness, and severe warping when using traditional reinforced plastics like glass-fiber composites. In contrast, blade plastic not only delivers exceptional dimensional stability but also offers the following advantages: 1. High-Quality Aesthetics: Comparable to pure resins, with a visibly superior appearance to other reinforced products. 2. High Modulus: Rivaling fiber-reinforced materials, with a modulus range of 3,500–5,500 MPa. 3. High Toughness: Available in varying toughness grades, achieving up to 30 kJ/m² at the highest level. This translation maintains technical accuracy while emphasizing key performance metrics and comparative advantages.

The current thin-walled designs for terminals face challenges such as reduced stiffness, diminished toughness, and severe warping when using traditional reinforced plastics like glass-fiber composites. In contrast, blade plastic not only delivers exceptional dimensional stability but also offers the following advantages:

1. High-Quality Aesthetics: Comparable to pure resins, with a visibly superior appearance to other reinforced products.
2. High Modulus: Rivaling fiber-reinforced materials, with a modulus range of 3,500–5,500 MPa.
3. High Toughness: Available in varying toughness grades, achieving up to 30 kJ/m² at the highest level.

This translation maintains technical accuracy while emphasizing key performance metrics and comparative advantages.

Application: New Energy

PIR industrial-grade recycled carbon fiber reinforced modified polymers: The material types include modified versions of PEEK, PA9T, PA6T, PA66, PA6, PBT, PET, PK and other substrates, with the highest carbon fiber content reaching up to 40%. They are used for lightweighting of automotive parts, as well as special specifications of recycled-grade carbon fiber modified materials developed by AKRO for additive manufacturing 3D printing.

PIR industrial-grade recycled carbon fiber reinforced modified polymers: The material types include modified versions of PEEK, PA9T, PA6T, PA66, PA6, PBT, PET, PK and other substrates, with the highest carbon fiber content reaching up to 40%. They are used for lightweighting of automotive parts, as well as special specifications of recycled-grade carbon fiber modified materials developed by AKRO for additive manufacturing 3D printing.

Application: E&E, IT & Telecommunication| Automotive| New Energy

High-performance polymers such as Polyphthalamide (PPA), Polyetheretherketone (PEEK), Polyimide (PI), and Polyphenylene Sulfide (PPS) operate in environments that routinely exceed 250°C and, in some cases, approach 400°C. At these elevated temperatures, conventional organic pigments undergo thermally induced degradation, leading to discoloration, embrittlement, and in some orgaic dyes sublimation csn occur condensing on processing equipment causing staining and contamination. However, the challenge does not end with thermal resilience. Colorants must also demonstrate chemical inertness against aggressive automotive fluids, aerospace lubricants, and industrial solvents. In some applications they must maintain UV resistance to prevent photodegradation, low extractables and leachables to ensure compliance with regulatory standards, and excellent dispersion characteristics to avoid agglomeration, which can lead to stress concentration points within the polymer matrix.

High-performance polymers such as Polyphthalamide (PPA), Polyetheretherketone (PEEK), Polyimide (PI), and Polyphenylene Sulfide (PPS) operate in environments that routinely exceed 250°C and, in some cases, approach 400°C. At these elevated temperatures, conventional organic pigments undergo thermally induced degradation, leading to discoloration, embrittlement, and in some orgaic dyes sublimation csn occur condensing on processing equipment causing staining and contamination.

However, the challenge does not end with thermal resilience. Colorants must also demonstrate chemical inertness against aggressive automotive fluids, aerospace lubricants, and industrial solvents. In some applications they must maintain UV resistance to prevent photodegradation, low extractables and leachables to ensure compliance with regulatory standards, and excellent dispersion characteristics to avoid agglomeration, which can lead to stress concentration points within the polymer matrix.

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive| New Energy| Sports & Leisure| Food & Beverage

STAR's new economical robotic, with a completely new design that balances performance and quality improvements, brings customers a brand new user experience. 1) Productivity improvement: Equipped with a newly developed servo control system, the production efficiency is increased by more than 10% compared to similar models. 2) Improved operability: The new XC1 control system operation box achieves a smartphone like operating experience, ensuring convenient and safe human-machine interaction. 3) Maintainability improvement: Modular design concept, selection of standardized and universal components, reducing maintenance time and costs. 4) Application improvement: The weight that can be carried has increased by more than 20%, making it suitable for more complex working conditions.

STAR's new economical robotic, with a completely new design that balances performance and quality improvements, brings customers a brand new user experience.

1) Productivity improvement: Equipped with a newly developed servo control system, the production efficiency is increased by more than 10% compared to similar models.
2) Improved operability: The new XC1 control system operation box achieves a smartphone like operating experience, ensuring convenient and safe human-machine interaction.
3) Maintainability improvement: Modular design concept, selection of standardized and universal components, reducing maintenance time and costs.
4) Application improvement: The weight that can be carried has increased by more than 20%, making it suitable for more complex working conditions.

Application: E&E, IT & Telecommunication| Automotive| New Energy| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Optoelectronics| Medical

BioLogiQ has 43 patents issued worldwide and 3 core patents for advancements in non-woven materials (XN series). The XN Series are designed to maintain the high performance of conventional non-woven materials made from polypropylene while significantly improving their environmental profile. They can be utilized on current commercialization without modification. The versatility of XN Series was demonstrated across various non-woven applications, e.g., lightweight spunbond fabrics for hygiene products; durable materials for isolation gowns/reusable bags; and melt-blown/bi-component fibres. The XN Series for nonwoven applications represents a unique technology invented by BioLogiQ - utilizing sustainable feedstocks and reducing reliance on fossil-based materials, plastic pollution and carbon footprint. The success of BioLogiQ XN series was well recognized, including the Gold Award at the 4th Asia Exhibition of innovations and inventions Hong Kong 2024 and the Jury Award at the Hong Kong Sustainable Development Innovation and Technology Award 2025.

BioLogiQ has 43 patents issued worldwide and 3 core patents for advancements in non-woven materials (XN series).

The XN Series are designed to maintain the high performance of conventional non-woven materials made from polypropylene while significantly improving their environmental profile. They can be utilized on current commercialization without modification. The versatility of XN Series was demonstrated across various non-woven applications, e.g., lightweight spunbond fabrics for hygiene products; durable materials for isolation gowns/reusable bags; and melt-blown/bi-component fibres.

The XN Series for nonwoven applications represents a unique technology invented by BioLogiQ - utilizing sustainable feedstocks and reducing reliance on fossil-based materials, plastic pollution and carbon footprint. The success of BioLogiQ XN series was well recognized, including the Gold Award at the 4th Asia Exhibition of innovations and inventions Hong Kong 2024 and the Jury Award at the Hong Kong Sustainable Development Innovation and Technology Award 2025.

Application: Packaging| Medical

BASF's solution for extrudable busbar insulation is a material designed to meet market demands. It offers a broad processing window, good extrudability, reliable bending performance, effective insulation, anti-aging properties. The BASF solution integrates with mainstream long-chain PA, ensuring production efficiency with minimal adjustments. Its extrudability and thickness control enable precise insulation layers. The material's bonding strength with metal prevents bulging at bending corners, which is important for EV battery busbars. It maintains a smooth appearance after bending. With high initial resistance and dielectric performance under DC5000V, the BASF solution prevents electric breakdowns at high voltages. It retains insulation even after a 7-day water bath, suitable for moist environments. Operating effectively from -40 to 125°C, the BASF solution withstands harsh conditions while maintaining stable performance, ensuring durability in extreme temperatures and prolonged exposure to stressors.

BASF's solution for extrudable busbar insulation is a material designed to meet market demands. It offers a broad processing window, good extrudability, reliable bending performance, effective insulation, anti-aging properties.

The BASF solution integrates with mainstream long-chain PA, ensuring production efficiency with minimal adjustments. Its extrudability and thickness control enable precise insulation layers. The material's bonding strength with metal prevents bulging at bending corners, which is important for EV battery busbars. It maintains a smooth appearance after bending.

With high initial resistance and dielectric performance under DC5000V, the BASF solution prevents electric breakdowns at high voltages. It retains insulation even after a 7-day water bath, suitable for moist environments. Operating effectively from -40 to 125°C, the BASF solution withstands harsh conditions while maintaining stable performance, ensuring durability in extreme temperatures and prolonged exposure to stressors.

Application: Automotive

The DGM Gravix 20 has been specifically designed for micro-dosing applications. It features the exclusive double eyelid shutter device enabling high dosing standard thanks to an extremely fast reaction time, only 25 milliseconds. In addition, the algorithm operating on the Vibration Immunity System (VIS) overcomes the vibration challenge allowing the installation of the DGM directly on the processing machine. The Rotopulse technology (exclusive system able to dose even a single granule) and the free weighing hopper make these automations unsurpassed for all types of dosing situations. The DGM Gravix 20 is engineered for easy accessibility and rapid, tool free maintenance thanks to the removable hoppers. The user interface has been upgraded with the introduction of a new 7-inch touch view with icon-based programming for simple and intuitive management. The stainless-steel hoppers are equipped with sight glasses and are easily detachable for rapid change of production and cleaning operations. The DGM Gravix 20 represents an undisputed choice for those seeking excellence in the dosing of plastic granules, offering advanced performance that meets the stringent needs of industry professionals.

The DGM Gravix 20 has been specifically designed for micro-dosing applications. It features the exclusive double eyelid shutter device enabling high dosing standard thanks to an extremely fast reaction time, only 25 milliseconds. In addition, the algorithm operating on the Vibration Immunity System (VIS) overcomes the vibration challenge allowing the installation of the DGM directly on the processing machine. The Rotopulse technology (exclusive system able to dose even a single granule) and the free weighing hopper make these automations unsurpassed for all types of dosing situations.

The DGM Gravix 20 is engineered for easy accessibility and rapid, tool free maintenance thanks to the removable hoppers. The user interface has been upgraded with the introduction of a new 7-inch touch view with icon-based programming for simple and intuitive management. The stainless-steel hoppers are equipped with sight glasses and are easily detachable for rapid change of production and cleaning operations.

The DGM Gravix 20 represents an undisputed choice for those seeking excellence in the dosing of plastic granules, offering advanced performance that meets the stringent needs of industry professionals.

Application: E&E, IT & Telecommunication| Automotive| Food & Beverage| Medical

With a productivity increase of +50% compared to current standards, CCM64MD achieves a production performance never seen before: up to 2,850 capsules per minute, or 171,000 caps per hour, with only 64 molds. With this very high capacity, a single CCM64MD satisfies two of the fastest bottling lines on the market (80,000 bottles/hour) CCM64MD reduces specific energy consumption by 15% compared to previous generations of CCMs, which were already market leaders in this area. This manufacturer's new benchmark is 0.43 kWh/kg, which, in terms of emissions, corresponds to the saving of 8 tons of CO₂ equivalent every year with the same production. With the advantages of productivity and sustainability, CCM64MD maintains the ease of use that makes SACMI machines the market standard. In fact, the operation of this new CCM is the same as the machines currently on the market. Moreover, the newly designed HMI shortens the operator's learning curve, making process control even easier and more intuitive.

With a productivity increase of +50% compared to current standards, CCM64MD achieves a production performance never seen before: up to 2,850 capsules per minute, or 171,000 caps per hour, with only 64 molds. With this very high capacity, a single CCM64MD satisfies two of the fastest bottling lines on the market (80,000 bottles/hour)

CCM64MD reduces specific energy consumption by 15% compared to previous generations of CCMs, which were already market leaders in this area. This manufacturer's new benchmark is 0.43 kWh/kg, which, in terms of emissions, corresponds to the saving of 8 tons of CO₂ equivalent every year with the same production. With the advantages of productivity and sustainability, CCM64MD maintains the ease of use that makes SACMI machines the market standard. In fact, the operation of this new CCM is the same as the machines currently on the market. Moreover, the newly designed HMI shortens the operator's learning curve, making process control even easier and more intuitive.

Application: Packaging| Food & Beverage

With Asano's advanced heat-set technology, the mold temperature can be set to 120°C, ensuring that formed products maintain their shape without deformation. The key advantage is that it enhances the heat resistance of polylactic acid (PLA), a biodegradable material, allowing it to withstand temperatures of up to 100°C under special conditions.

With Asano's advanced heat-set technology, the mold temperature can be set to 120°C, ensuring that formed products maintain their shape without deformation. The key advantage is that it enhances the heat resistance of polylactic acid (PLA), a biodegradable material, allowing it to withstand temperatures of up to 100°C under special conditions.

Application: Packaging| Food & Beverage

Battery separator film production line for highest efficiency. The new BSF 500+ separator line is especially designed for thin base film production with high mechanical properties.

Battery separator film production line for highest efficiency. The new BSF 500+ separator line is especially designed for thin base film production with high mechanical properties.

Application: Automotive| New Energy

The clamping mechanism has been comprehensively optimized with a linear guide rail design, ensuring smooth operation, quick mold changes, and efficient production. The new high-efficiency screw assembly enhances plasticizing performance, improves injection repeatability, reduces material accumulation, and effectively minimizes product defects such as black spots and yellowing. The lubrication system has been redesigned for a more stable machine operation and extended service life.

The clamping mechanism has been comprehensively optimized with a linear guide rail design, ensuring smooth operation, quick mold changes, and efficient production. The new high-efficiency screw assembly enhances plasticizing performance, improves injection repeatability, reduces material accumulation, and effectively minimizes product defects such as black spots and yellowing. The lubrication system has been redesigned for a more stable machine operation and extended service life.

Application: E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Optoelectronics| Medical

ACERETECH's rPET Food-Grade Decontamination Pelletizing System integrates predrying, compaction, extrusion, filtration, and pelletizing into a single process. This technology allows for 100% utilization of rPET material. The resulting pellets are melt-filtered, uniform, and dry, with flow characteristics similar to virgin resin. Solid-State Polycondensation (SSP) The continuous Solid-State Polycondensation process increases the viscosity of PET by adjusting the residence time in the reactor. This process also ensures purification, with an FDA no-objection letter issued in May 2024. The final product is crystalline pellets with properties comparable to virgin resin. The system meets food-contact applications under the following Conditions of Use: C-H A. High temperature heat-sterilized (e.g., over 212 deg. F). B. Boiling water sterilized. C. Hot filled or pasteurized above 150 deg. F. D. Hot filled or pasteurized below 150 deg. F. E. Room temperature filled and stored (no thermal treatment in the container). F. Refrigerated storage (no thermal treatment in the container). G. Frozen storage (no thermal treatment in the container). H. Frozen or refrigerated storage: Ready-prepared foods intended to be reheated in container at time of use: 1. Aqueous or oil-in-water emulsion of high- or low-fat; 2. Aqueous, high- or low-free oil or fat.

ACERETECH's rPET Food-Grade Decontamination Pelletizing System integrates predrying, compaction, extrusion, filtration, and pelletizing into a single process. This technology allows for 100% utilization of rPET material. The resulting pellets are melt-filtered, uniform, and dry, with flow characteristics similar to virgin resin.

Solid-State Polycondensation (SSP)
The continuous Solid-State Polycondensation process increases the viscosity of PET by adjusting the residence time in the reactor. This process also ensures purification, with an FDA no-objection letter issued in May 2024. The final product is crystalline pellets with properties comparable to virgin resin. The system meets food-contact applications under the following Conditions of Use: C-H
A. High temperature heat-sterilized (e.g., over 212 deg. F).
B. Boiling water sterilized.
C. Hot filled or pasteurized above 150 deg. F.
D. Hot filled or pasteurized below 150 deg. F.
E. Room temperature filled and stored (no thermal treatment in the container).
F. Refrigerated storage (no thermal treatment in the container).
G. Frozen storage (no thermal treatment in the container).
H. Frozen or refrigerated storage: Ready-prepared foods intended to be reheated in container at time of use: 1. Aqueous or oil-in-water emulsion of high- or low-fat; 2. Aqueous, high- or low-free oil or fat.

Application: Food & Beverage

The specific torque density reaches 15 Nm/cm³, with a maximum screw speed of 900 rpm. The compact structure enables low noise levels (≤80 dB(A)), and the transmission efficiency is ≥95%. The barrel features a nickel-based powder alloy sintered liner, which is wear- and corrosion-resistant and patent-pending. The new spiral cooling channel enhances cooling efficiency and minimizes deformation. For temperature control, it is equipped with an imported CO-AX coaxial valve, while heating is provided by an imported heating rod, ensuring high efficiency and long service life. The screw elements are made of hot isostatic pressed (HIP) material, offering 2-3 times the wear and corrosion resistance compared to domestic materials. The screw shaft is constructed from high-strength, high-toughness imported alloy steel, delivering excellent mechanical properties.With an optimized overall design, the system enhances transmission efficiency and operational stability.

The specific torque density reaches 15 Nm/cm³, with a maximum screw speed of 900 rpm. The compact structure enables low noise levels (≤80 dB(A)), and the transmission efficiency is ≥95%.

The barrel features a nickel-based powder alloy sintered liner, which is wear- and corrosion-resistant and patent-pending. The new spiral cooling channel enhances cooling efficiency and minimizes deformation. For temperature control, it is equipped with an imported CO-AX coaxial valve, while heating is provided by an imported heating rod, ensuring high efficiency and long service life. The screw elements are made of hot isostatic pressed (HIP) material, offering 2-3 times the wear and corrosion resistance compared to domestic materials. The screw shaft is constructed from high-strength, high-toughness imported alloy steel, delivering excellent mechanical properties.With an optimized overall design, the system enhances transmission efficiency and operational stability.

Application: Aerospace, Aviation, Railway Transport| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Medical

ENMA Crusher is a cutting-edge modular plastic shredder designed to simplify the waste plastic recycling process while increasing versatility and efficiency. It can handle various types, shapes, sizes and weights of plastic materials with a single machine. Its module components can be easily separated, making it suitable for both global markets and various production scales. It is with multiple technical protections and safety interlocks ensuring the safety of operators during both operation and maintenance. Whether recycling pallets, bales, lumps or synthetic fibers, EnMa Crusher can be configured to efficiently process a wide range of materials, maximizing captaincy and minimizing downtime. Combined with its energy-saving design, supports a greener, more sustainable future of the plastic recycling industry.

ENMA Crusher is a cutting-edge modular plastic shredder designed to simplify the waste plastic recycling process while increasing versatility and efficiency. It can handle various types, shapes, sizes and weights of plastic materials with a single machine. Its module components can be easily separated, making it suitable for both global markets and various production scales.

It is with multiple technical protections and safety interlocks ensuring the safety of operators during both operation and maintenance.

Whether recycling pallets, bales, lumps or synthetic fibers, EnMa Crusher can be configured to efficiently process a wide range of materials, maximizing captaincy and minimizing downtime. Combined with its energy-saving design, supports a greener, more sustainable future of the plastic recycling industry.

Application: Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Medical

The highest speed of ShaanxiBeiren 2025 model intelligent Rotogravure printing machine is 450m/min, which has excellent printing performance. The human-machine engineering and safety engineering of the equipment have been comprehensively upgraded, and new energy management and health management systems have been added to adapt to the high-speed printing of ink and water and the high-speed printing of special stretchable materials. It has the following characteristics: ① Full-automatic overprinting can save 20% of the time and reduce the loss by 60%. ② The overprinting accuracy is ±0.05mm. There is zero loss during acceleration, deceleration and overprinting, and the loss during cutting and material changing is less than 10 meters. ③ The ink will not splash, saving about 60% of the solvent. ④ Intelligent operation, energy conservation and emission reduction, saving more than 50% of the energy consumption. ⑤ The equipment reduces the dependence on people and lowers the labor cost. ⑥ The maximum exhaust air volume of the equipment is less than 15,000m³/h, effectively improving the workshop environment and saving more than 20% of energy. ⑦ It can meet the high-speed printing of 22μm ultra-thin PE. ⑧ During high-speed printing at 450m/min, the loss of waste from cutting is less than 10 meters, and the yield rate is greatly improved.

The highest speed of ShaanxiBeiren 2025 model intelligent Rotogravure printing machine is 450m/min, which has excellent printing performance. The human-machine engineering and safety engineering of the equipment have been comprehensively upgraded, and new energy management and health management systems have been added to adapt to the high-speed printing of ink and water and the high-speed printing of special stretchable materials.

It has the following characteristics:
① Full-automatic overprinting can save 20% of the time and reduce the loss by 60%.
② The overprinting accuracy is ±0.05mm. There is zero loss during acceleration, deceleration and overprinting, and the loss during cutting and material changing is less than 10 meters.
③ The ink will not splash, saving about 60% of the solvent.
④ Intelligent operation, energy conservation and emission reduction, saving more than 50% of the energy consumption.
⑤ The equipment reduces the dependence on people and lowers the labor cost.
⑥ The maximum exhaust air volume of the equipment is less than 15,000m³/h, effectively improving the workshop environment and saving more than 20% of energy.
⑦ It can meet the high-speed printing of 22μm ultra-thin PE.
⑧ During high-speed printing at 450m/min, the loss of waste from cutting is less than 10 meters, and the yield rate is greatly improved.

Application: Packaging

Major technological breakthroughs: 1) Solventless and dry lamination processes realize fusion application and free switching on the same triplex machine for the first time; 2) Digital semi-flexible coating system is adopted to improve coating accuracy and flexibility; 3) The use of ultra-short oven and series drying mode, improve the drying speed and energy efficiency, can be a large amount of solvent consumption; 4) Online energy measurement of carbon, providing real-time data for carbon footprint calculation. Greatest advantage: Fill the gap of similar models; The best process scheme can be obtained by combining the advantages of the two processes. Significantly increase speed, increase efficiency and reduce carbon. Benefits for users: Can be applied to a variety of functional or high-quality lamination, is a wider use, more efficient, more flexible is a new type of equipment!

Major technological breakthroughs:
1) Solventless and dry lamination processes realize fusion application and free switching on the same triplex machine for the first time;
2) Digital semi-flexible coating system is adopted to improve coating accuracy and flexibility;
3) The use of ultra-short oven and series drying mode, improve the drying speed and energy efficiency, can be a large amount of solvent consumption;
4) Online energy measurement of carbon, providing real-time data for carbon footprint calculation.

Greatest advantage:
Fill the gap of similar models; The best process scheme can be obtained by combining the advantages of the two processes. Significantly increase speed, increase efficiency and reduce carbon.

Benefits for users:
Can be applied to a variety of functional or high-quality lamination, is a wider use, more efficient, more flexible is a new type of equipment!

Application: Packaging| Daily Chemicals

1. Plateless printing – Ideal for high variety, small batch, multi-batch, and variable data production. There's no minimum order quantity requirement. 2. Compared to traditional gravure printing machines, it boosts efficiency by 50%. 3. With a high image resolution of 1200x1200dpi, design is no longer constrained by printing techniques. Complex patterns and delicate hues alike can be flawlessly reproduced on flexible packaging, enhancing the package's visual allure and bringing the brand's personalized touch to life. 4. High-density water-based pigment ink guarantees food safety, high color density, and colorfastness of the printed items. 5. Environmentally friendly with zero VOC emissions.

1. Plateless printing – Ideal for high variety, small batch, multi-batch, and variable data production. There's no minimum order quantity requirement.
2. Compared to traditional gravure printing machines, it boosts efficiency by 50%.
3. With a high image resolution of 1200x1200dpi, design is no longer constrained by printing techniques. Complex patterns and delicate hues alike can be flawlessly reproduced on flexible packaging, enhancing the package's visual allure and bringing the brand's personalized touch to life.
4. High-density water-based pigment ink guarantees food safety, high color density, and colorfastness of the printed items.
5. Environmentally friendly with zero VOC emissions.

Application: Packaging

ZhongyunTech K socket is designed to significantly increase the strength of socket of corrugated pipes by improving the structure of socket. According to testings, the strength of K socket is almost doubled than the common double layer socket. Benefit for users: 1. This new socket design helps to avoid the socket deformation during the storage and transportation of corrugated pipes. 2. It will help to enhance the sealing of corrugated pipes by virtue of ultra-strength, avoid the risk of leakage.

ZhongyunTech K socket is designed to significantly increase the strength of socket of corrugated pipes by improving the structure of socket. According to testings, the strength of K socket is almost doubled than the common double layer socket.

Benefit for users:
1. This new socket design helps to avoid the socket deformation during the storage and transportation of corrugated pipes.
2. It will help to enhance the sealing of corrugated pipes by virtue of ultra-strength, avoid the risk of leakage.

Application: Building Materials| Optoelectronics

(1) Simple in Design, Showcasing Industrial Aesthetics; (2) Streamlined Processes, Initiating Efficient Operations; (3) Good Visibility and Accessibility, Facilitating Convenient Maintenance; (4) Energy - efficient Design, Practicing Green Development; (5) Cutting - edge Plasticizing and Injection, Pioneering New Technological Chapters; (6) Intelligent Control Center, Ensuring Efficient Production

(1) Simple in Design, Showcasing Industrial Aesthetics;
(2) Streamlined Processes, Initiating Efficient Operations;
(3) Good Visibility and Accessibility, Facilitating Convenient Maintenance;
(4) Energy - efficient Design, Practicing Green Development;
(5) Cutting - edge Plasticizing and Injection, Pioneering New Technological Chapters;
(6) Intelligent Control Center, Ensuring Efficient Production

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Optoelectronics| Medical

Multi-component molding is a method in which two or more types of resins are sequentially injected inside the mold boasting higher production efficiency than insert injection or post-processing method. FLEXSHOT is an add-on type multi-injector that is additionally attached to the main injection machine and it's designed to make the customers enter into multi-injection introduction by including various installation methods and high space utilization. Possibility to use in parallel with normal injection products. Advantages: Comparing to the traditional ways for 2k or multi-k injection, it is much more convenient and cost-effective as customer may need to purchase another new 2k injection machine, which is much more expensive and time-consuming. For Flexshot, customer can put it on the sides of the mold, and it can adjust with the secondary nozzle inlets very flexibly. For the mold design it will have less limitations.

Multi-component molding is a method in which two or more types of resins are sequentially injected inside the mold boasting higher production efficiency than insert injection or post-processing method.

FLEXSHOT is an add-on type multi-injector that is additionally attached to the main injection machine and it's designed to make the customers enter into multi-injection introduction by including various installation methods and high space utilization. Possibility to use in parallel with normal injection products.

Advantages: Comparing to the traditional ways for 2k or multi-k injection, it is much more convenient and cost-effective as customer may need to purchase another new 2k injection machine, which is much more expensive and time-consuming. For Flexshot, customer can put it on the sides of the mold, and it can adjust with the secondary nozzle inlets very flexibly. For the mold design it will have less limitations.

Application: E&E, IT & Telecommunication| Automotive| Packaging| Daily Chemicals

The EC series twin-screw extruder is tailor-made for small to medium-scale production users, equipped with a new permanent magnet direct drive motor and an efficient transmission system. Compared to traditional asynchronous motor equipment, energy consumption is reduced by approximately 11%. Whether it's high-efficiency output or quiet operation, the EC series embodies the concept of "just right, is efficient" in every detail. Based on the large-scale production line control architecture, every alarm and every adjustment are clearly visible with precise feedback.

The EC series twin-screw extruder is tailor-made for small to medium-scale production users, equipped with a new permanent magnet direct drive motor and an efficient transmission system. Compared to traditional asynchronous motor equipment, energy consumption is reduced by approximately 11%. Whether it's high-efficiency output or quiet operation, the EC series embodies the concept of "just right, is efficient" in every detail. Based on the large-scale production line control architecture, every alarm and every adjustment are clearly visible with precise feedback.

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Optoelectronics| Medical

STAR's new economical robotic, with a completely new design that balances performance and quality improvements, brings customers a brand new user experience. 1) Productivity improvement: Equipped with a newly developed servo control system, the production efficiency is increased by more than 10% compared to similar models. 2) Improved operability: The new XC1 control system operation box achieves a smartphone like operating experience, ensuring convenient and safe human-machine interaction. 3) Maintainability improvement: Modular design concept, selection of standardized and universal components, reducing maintenance time and costs. 4) Application improvement: The weight that can be carried has increased by more than 20%, making it suitable for more complex working conditions.

STAR's new economical robotic, with a completely new design that balances performance and quality improvements, brings customers a brand new user experience.

1) Productivity improvement: Equipped with a newly developed servo control system, the production efficiency is increased by more than 10% compared to similar models.
2) Improved operability: The new XC1 control system operation box achieves a smartphone like operating experience, ensuring convenient and safe human-machine interaction.
3) Maintainability improvement: Modular design concept, selection of standardized and universal components, reducing maintenance time and costs.
4) Application improvement: The weight that can be carried has increased by more than 20%, making it suitable for more complex working conditions.

Application: E&E, IT & Telecommunication| Automotive| New Energy| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Optoelectronics| Medical

The DGM Gravix 20 has been specifically designed for micro-dosing applications. It features the exclusive double eyelid shutter device enabling high dosing standard thanks to an extremely fast reaction time, only 25 milliseconds. In addition, the algorithm operating on the Vibration Immunity System (VIS) overcomes the vibration challenge allowing the installation of the DGM directly on the processing machine. The Rotopulse technology (exclusive system able to dose even a single granule) and the free weighing hopper make these automations unsurpassed for all types of dosing situations. The DGM Gravix 20 is engineered for easy accessibility and rapid, tool free maintenance thanks to the removable hoppers. The user interface has been upgraded with the introduction of a new 7-inch touch view with icon-based programming for simple and intuitive management. The stainless-steel hoppers are equipped with sight glasses and are easily detachable for rapid change of production and cleaning operations. The DGM Gravix 20 represents an undisputed choice for those seeking excellence in the dosing of plastic granules, offering advanced performance that meets the stringent needs of industry professionals.

The DGM Gravix 20 has been specifically designed for micro-dosing applications. It features the exclusive double eyelid shutter device enabling high dosing standard thanks to an extremely fast reaction time, only 25 milliseconds. In addition, the algorithm operating on the Vibration Immunity System (VIS) overcomes the vibration challenge allowing the installation of the DGM directly on the processing machine. The Rotopulse technology (exclusive system able to dose even a single granule) and the free weighing hopper make these automations unsurpassed for all types of dosing situations.

The DGM Gravix 20 is engineered for easy accessibility and rapid, tool free maintenance thanks to the removable hoppers. The user interface has been upgraded with the introduction of a new 7-inch touch view with icon-based programming for simple and intuitive management. The stainless-steel hoppers are equipped with sight glasses and are easily detachable for rapid change of production and cleaning operations.

The DGM Gravix 20 represents an undisputed choice for those seeking excellence in the dosing of plastic granules, offering advanced performance that meets the stringent needs of industry professionals.

Application: E&E, IT & Telecommunication| Automotive| Food & Beverage| Medical

A commercial vehicle air tank co-created with WAL Low Carbon Technology (Anhui) Co. Ltd (WAL) and made with BASF's high-performance material solution Ultramid® polyamide. The innovative solution achieves a weight reduction of 10-20% compared to aluminum alternatives and over 50% compared to steel versions. Production of the air tank is also more energy efficient, since it only needs a one-piece injection molding process. This eliminates the need for secondary welding operations that are typically required for metal versions. Combined with its high burst pressure resistance above 50 bar (5MPa), the solution demonstrates consistent product quality and reliability in this demanding application.

A commercial vehicle air tank co-created with WAL Low Carbon Technology (Anhui) Co. Ltd (WAL) and made with BASF's high-performance material solution Ultramid® polyamide. The innovative solution achieves a weight reduction of 10-20% compared to aluminum alternatives and over 50% compared to steel versions. Production of the air tank is also more energy efficient, since it only needs a one-piece injection molding process. This eliminates the need for secondary welding operations that are typically required for metal versions. Combined with its high burst pressure resistance above 50 bar (5MPa), the solution demonstrates consistent product quality and reliability in this demanding application.

Application: Automotive

HRTP4000 can provide high heat resistance, wear resistance, and high flexibility of the final product through differentiated technical features such as ultra-high molecular weight and high porosity compared to existing general-purpose products. It is being commercialized by applying it to EV charging cables, automotive high-heat-resistant wires, wear-resistant flooring and automotive high flexible artificial leather. Improved flexibility can provide convenience for charging users and improved heat/cold resistance overcomes the limitations of use in extreme environments of wires. In addition, improved wear resistance extended the life of the flooring and Soft-touch improvements made it possible to replace other materials in automotive leather.

HRTP4000 can provide high heat resistance, wear resistance, and high flexibility of the final product through differentiated technical features such as ultra-high molecular weight and high porosity compared to existing general-purpose products. It is being commercialized by applying it to EV charging cables, automotive high-heat-resistant wires, wear-resistant flooring and automotive high flexible artificial leather. Improved flexibility can provide convenience for charging users and improved heat/cold resistance overcomes the limitations of use in extreme environments of wires. In addition, improved wear resistance extended the life of the flooring and Soft-touch improvements made it possible to replace other materials in automotive leather.

Application: Automotive| Building Materials

DURAFIDE® PPS 1140HS6, developed by Polyplastics, represents a breakthrough achievement in material unification while significantly enhancing heat shock resistance. Through innovative material design research, this grade maintains ISO standard PPS >PPS-GF40< specifications while delivering improved heat shock resistance and maintaining excellent mechanical and fundamental properties. Technical Innovations: - Advanced material design reducing internal strain during molding - Superior heat shock resistance without impact modifiers - Maintains strength equivalent to conventional GF40% materials Performance Excellence: - Outstanding performance in rigorous heat shock testing (-40℃⇔140℃ cycling) - Superior flowability and low warpage characteristics - Significantly reduced mold contamination Environmental and Practical Benefits: - Excellent recyclability as a single GF40% material - Post-consumer recycling (PCR) is possible without separation from other PPS components - Ideal for demanding applications in new energy vehicles This development represents a significant step forward in sustainable engineering plastics, offering both environmental benefits and high-performance characteristics.

DURAFIDE® PPS 1140HS6, developed by Polyplastics, represents a breakthrough achievement in material unification while significantly enhancing heat shock resistance. Through innovative material design research, this grade maintains ISO standard PPS >PPS-GF40< specifications while delivering improved heat shock resistance and maintaining excellent mechanical and fundamental properties.

Technical Innovations:
- Advanced material design reducing internal strain during molding
- Superior heat shock resistance without impact modifiers
- Maintains strength equivalent to conventional GF40% materials

Performance Excellence:
- Outstanding performance in rigorous heat shock testing (-40℃⇔140℃ cycling)
- Superior flowability and low warpage characteristics
- Significantly reduced mold contamination

Environmental and Practical Benefits:
- Excellent recyclability as a single GF40% material
- Post-consumer recycling (PCR) is possible without separation from other PPS components
- Ideal for demanding applications in new energy vehicles

This development represents a significant step forward in sustainable engineering plastics, offering both environmental benefits and high-performance characteristics.

Application: Automotive

Ultramid® T6000 bridges the gap between traditional PA66 and PA6T, offering superior mechanical and dielectric properties, particularly in humid conditions and at elevated temperatures. Its easy processing and low corrosion on tools make it the preferred choice for complex automotive applications. With its wide range of pre-color options, including vibrant shades, Ultramid® T6000 enhances aesthetic flexibility while maintaining high performance standards. The FR grade of Ultramid® T6000 is specifically designed for EV applications, offering exceptional high strength ideal for terminal block use. This innovative material enhances the durability of electrical systems in new energy vehicles by withstanding thermal shock from -40°C to 150°C for 1,000 cycles and provides excellent electrical isolation for terminal blocks and high voltage busbars, significantly improving safety on the vehicle's 800V platform. A standout feature is its non-halogenated flame retardant, which minimizes the risk of metal corrosion and meets stringent safety standards, ensuring protection for vehicle occupants in the event of a fire. Additionally, its remarkable strength, stiffness, and dimensional stability allow for the creation of complex designs that can endure the rigors of automotive assembly, while also facilitating the integration of multiple functions into single components, ultimately simplifying assembly and enhancing space efficiency in EVs.

Ultramid® T6000 bridges the gap between traditional PA66 and PA6T, offering superior mechanical and dielectric properties, particularly in humid conditions and at elevated temperatures. Its easy processing and low corrosion on tools make it the preferred choice for complex automotive applications. With its wide range of pre-color options, including vibrant shades, Ultramid® T6000 enhances aesthetic flexibility while maintaining high performance standards.

The FR grade of Ultramid® T6000 is specifically designed for EV applications, offering exceptional high strength ideal for terminal block use. This innovative material enhances the durability of electrical systems in new energy vehicles by withstanding thermal shock from -40°C to 150°C for 1,000 cycles and provides excellent electrical isolation for terminal blocks and high voltage busbars, significantly improving safety on the vehicle's 800V platform. A standout feature is its non-halogenated flame retardant, which minimizes the risk of metal corrosion and meets stringent safety standards, ensuring protection for vehicle occupants in the event of a fire.

Additionally, its remarkable strength, stiffness, and dimensional stability allow for the creation of complex designs that can endure the rigors of automotive assembly, while also facilitating the integration of multiple functions into single components, ultimately simplifying assembly and enhancing space efficiency in EVs.

Application: New Energy

As the first domestic LCP material supplier, Kingfa is focusing on the innovative technology to drive the sustainable development of society. The developed new generation of the low-carbon-emission Vicryst® LCP CER-B, based on the mass balance method, possesses at least 70% renewable component and contributes to at least 30% carbon emission reduction. Meanwhile, Vicryst® LCP CER-B maintain the same property and performance as the traditional oil based LCP material. In this way, it works better to keep a balance between the environmental protection and properties of material.

As the first domestic LCP material supplier, Kingfa is focusing on the innovative technology to drive the sustainable development of society. The developed new generation of the low-carbon-emission Vicryst® LCP CER-B, based on the mass balance method, possesses at least 70% renewable component and contributes to at least 30% carbon emission reduction. Meanwhile, Vicryst® LCP CER-B maintain the same property and performance as the traditional oil based LCP material. In this way, it works better to keep a balance between the environmental protection and properties of material.

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive

LG Chem's Low Glossy ABS can provide superior matte and skin-friendly texture, and cost reduction and efficiency. It is can be used in the case of high-gloss mold, so that the final injection product has a high-level matte texture, the gloss can be ensured in 10~20º (degree). Low Glossy ABS is mainly used in high-end home appliances and other fields. At the same time, matte ABS is closer to skin texture than high-gloss ABS, so it is also known as skin-friendly ABS. At present, LG Chem‘s matte ABS has been widely used in the world's leading home appliance companies and has been well received.

LG Chem's Low Glossy ABS can provide superior matte and skin-friendly texture, and cost reduction and efficiency. It is can be used in the case of high-gloss mold, so that the final injection product has a high-level matte texture, the gloss can be ensured in 10~20º (degree). Low Glossy ABS is mainly used in high-end home appliances and other fields.

At the same time, matte ABS is closer to skin texture than high-gloss ABS, so it is also known as skin-friendly ABS. At present, LG Chem‘s matte ABS has been widely used in the world's leading home appliance companies and has been well received.

Application: E&E, IT & Telecommunication

ReliaSil™ UV HCR 241-60 is a low-temperature, UV cure silicone rubber with robust physical properties, suitable for long-term implants. This product utilizes a unique UV catalyst system that enables command-cure flexibility, providing increased cure speeds at ambient temperatures, without sacrificing the physical properties that give silicone elastomers the performance advantage over other room-temperature cure materials. This product is particularly suitable for implants that involve temperature-sensitive additives such as active pharmaceutical ingredients (APIs) or temperature-sensitive components such as batteries. Key features and typical benefits: 1. long-term implantion, >29 days 2. Cure on-demand by UV light 3. Room-temperature cure 4. Reduced shrinkage compared to heat-cured materials 5 Compatible with existing silicone extruders

ReliaSil™ UV HCR 241-60 is a low-temperature, UV cure silicone rubber with robust physical properties, suitable for long-term implants. This product utilizes a unique UV catalyst system that enables command-cure flexibility, providing increased cure speeds at ambient temperatures, without sacrificing the physical properties that give silicone elastomers the performance advantage over other room-temperature cure materials. This product is particularly suitable for implants that involve temperature-sensitive additives such as active pharmaceutical ingredients (APIs) or temperature-sensitive components such as batteries.

Key features and typical benefits:
1. long-term implantion, >29 days
2. Cure on-demand by UV light
3. Room-temperature cure
4. Reduced shrinkage compared to heat-cured materials
5 Compatible with existing silicone extruders

Application: Medical

The current thin-walled designs for terminals face challenges such as reduced stiffness, diminished toughness, and severe warping when using traditional reinforced plastics like glass-fiber composites. In contrast, blade plastic not only delivers exceptional dimensional stability but also offers the following advantages: 1. High-Quality Aesthetics: Comparable to pure resins, with a visibly superior appearance to other reinforced products. 2. High Modulus: Rivaling fiber-reinforced materials, with a modulus range of 3,500–5,500 MPa. 3. High Toughness: Available in varying toughness grades, achieving up to 30 kJ/m² at the highest level. This translation maintains technical accuracy while emphasizing key performance metrics and comparative advantages.

The current thin-walled designs for terminals face challenges such as reduced stiffness, diminished toughness, and severe warping when using traditional reinforced plastics like glass-fiber composites. In contrast, blade plastic not only delivers exceptional dimensional stability but also offers the following advantages:

1. High-Quality Aesthetics: Comparable to pure resins, with a visibly superior appearance to other reinforced products.
2. High Modulus: Rivaling fiber-reinforced materials, with a modulus range of 3,500–5,500 MPa.
3. High Toughness: Available in varying toughness grades, achieving up to 30 kJ/m² at the highest level.

This translation maintains technical accuracy while emphasizing key performance metrics and comparative advantages.

Application: New Energy

PIR industrial-grade recycled carbon fiber reinforced modified polymers: The material types include modified versions of PEEK, PA9T, PA6T, PA66, PA6, PBT, PET, PK and other substrates, with the highest carbon fiber content reaching up to 40%. They are used for lightweighting of automotive parts, as well as special specifications of recycled-grade carbon fiber modified materials developed by AKRO for additive manufacturing 3D printing.

PIR industrial-grade recycled carbon fiber reinforced modified polymers: The material types include modified versions of PEEK, PA9T, PA6T, PA66, PA6, PBT, PET, PK and other substrates, with the highest carbon fiber content reaching up to 40%. They are used for lightweighting of automotive parts, as well as special specifications of recycled-grade carbon fiber modified materials developed by AKRO for additive manufacturing 3D printing.

Application: E&E, IT & Telecommunication| Automotive| New Energy

High-performance polymers such as Polyphthalamide (PPA), Polyetheretherketone (PEEK), Polyimide (PI), and Polyphenylene Sulfide (PPS) operate in environments that routinely exceed 250°C and, in some cases, approach 400°C. At these elevated temperatures, conventional organic pigments undergo thermally induced degradation, leading to discoloration, embrittlement, and in some orgaic dyes sublimation csn occur condensing on processing equipment causing staining and contamination. However, the challenge does not end with thermal resilience. Colorants must also demonstrate chemical inertness against aggressive automotive fluids, aerospace lubricants, and industrial solvents. In some applications they must maintain UV resistance to prevent photodegradation, low extractables and leachables to ensure compliance with regulatory standards, and excellent dispersion characteristics to avoid agglomeration, which can lead to stress concentration points within the polymer matrix.

High-performance polymers such as Polyphthalamide (PPA), Polyetheretherketone (PEEK), Polyimide (PI), and Polyphenylene Sulfide (PPS) operate in environments that routinely exceed 250°C and, in some cases, approach 400°C. At these elevated temperatures, conventional organic pigments undergo thermally induced degradation, leading to discoloration, embrittlement, and in some orgaic dyes sublimation csn occur condensing on processing equipment causing staining and contamination.

However, the challenge does not end with thermal resilience. Colorants must also demonstrate chemical inertness against aggressive automotive fluids, aerospace lubricants, and industrial solvents. In some applications they must maintain UV resistance to prevent photodegradation, low extractables and leachables to ensure compliance with regulatory standards, and excellent dispersion characteristics to avoid agglomeration, which can lead to stress concentration points within the polymer matrix.

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive| New Energy| Sports & Leisure| Food & Beverage

BioLogiQ has 43 patents issued worldwide and 3 core patents for advancements in non-woven materials (XN series). The XN Series are designed to maintain the high performance of conventional non-woven materials made from polypropylene while significantly improving their environmental profile. They can be utilized on current commercialization without modification. The versatility of XN Series was demonstrated across various non-woven applications, e.g., lightweight spunbond fabrics for hygiene products; durable materials for isolation gowns/reusable bags; and melt-blown/bi-component fibres. The XN Series for nonwoven applications represents a unique technology invented by BioLogiQ - utilizing sustainable feedstocks and reducing reliance on fossil-based materials, plastic pollution and carbon footprint. The success of BioLogiQ XN series was well recognized, including the Gold Award at the 4th Asia Exhibition of innovations and inventions Hong Kong 2024 and the Jury Award at the Hong Kong Sustainable Development Innovation and Technology Award 2025.

BioLogiQ has 43 patents issued worldwide and 3 core patents for advancements in non-woven materials (XN series).

The XN Series are designed to maintain the high performance of conventional non-woven materials made from polypropylene while significantly improving their environmental profile. They can be utilized on current commercialization without modification. The versatility of XN Series was demonstrated across various non-woven applications, e.g., lightweight spunbond fabrics for hygiene products; durable materials for isolation gowns/reusable bags; and melt-blown/bi-component fibres.

The XN Series for nonwoven applications represents a unique technology invented by BioLogiQ - utilizing sustainable feedstocks and reducing reliance on fossil-based materials, plastic pollution and carbon footprint. The success of BioLogiQ XN series was well recognized, including the Gold Award at the 4th Asia Exhibition of innovations and inventions Hong Kong 2024 and the Jury Award at the Hong Kong Sustainable Development Innovation and Technology Award 2025.

Application: Packaging| Medical

BASF's solution for extrudable busbar insulation is a material designed to meet market demands. It offers a broad processing window, good extrudability, reliable bending performance, effective insulation, anti-aging properties. The BASF solution integrates with mainstream long-chain PA, ensuring production efficiency with minimal adjustments. Its extrudability and thickness control enable precise insulation layers. The material's bonding strength with metal prevents bulging at bending corners, which is important for EV battery busbars. It maintains a smooth appearance after bending. With high initial resistance and dielectric performance under DC5000V, the BASF solution prevents electric breakdowns at high voltages. It retains insulation even after a 7-day water bath, suitable for moist environments. Operating effectively from -40 to 125°C, the BASF solution withstands harsh conditions while maintaining stable performance, ensuring durability in extreme temperatures and prolonged exposure to stressors.

BASF's solution for extrudable busbar insulation is a material designed to meet market demands. It offers a broad processing window, good extrudability, reliable bending performance, effective insulation, anti-aging properties.

The BASF solution integrates with mainstream long-chain PA, ensuring production efficiency with minimal adjustments. Its extrudability and thickness control enable precise insulation layers. The material's bonding strength with metal prevents bulging at bending corners, which is important for EV battery busbars. It maintains a smooth appearance after bending.

With high initial resistance and dielectric performance under DC5000V, the BASF solution prevents electric breakdowns at high voltages. It retains insulation even after a 7-day water bath, suitable for moist environments. Operating effectively from -40 to 125°C, the BASF solution withstands harsh conditions while maintaining stable performance, ensuring durability in extreme temperatures and prolonged exposure to stressors.

Application: Automotive

With a productivity increase of +50% compared to current standards, CCM64MD achieves a production performance never seen before: up to 2,850 capsules per minute, or 171,000 caps per hour, with only 64 molds. With this very high capacity, a single CCM64MD satisfies two of the fastest bottling lines on the market (80,000 bottles/hour) CCM64MD reduces specific energy consumption by 15% compared to previous generations of CCMs, which were already market leaders in this area. This manufacturer's new benchmark is 0.43 kWh/kg, which, in terms of emissions, corresponds to the saving of 8 tons of CO₂ equivalent every year with the same production. With the advantages of productivity and sustainability, CCM64MD maintains the ease of use that makes SACMI machines the market standard. In fact, the operation of this new CCM is the same as the machines currently on the market. Moreover, the newly designed HMI shortens the operator's learning curve, making process control even easier and more intuitive.

With a productivity increase of +50% compared to current standards, CCM64MD achieves a production performance never seen before: up to 2,850 capsules per minute, or 171,000 caps per hour, with only 64 molds. With this very high capacity, a single CCM64MD satisfies two of the fastest bottling lines on the market (80,000 bottles/hour)

CCM64MD reduces specific energy consumption by 15% compared to previous generations of CCMs, which were already market leaders in this area. This manufacturer's new benchmark is 0.43 kWh/kg, which, in terms of emissions, corresponds to the saving of 8 tons of CO₂ equivalent every year with the same production. With the advantages of productivity and sustainability, CCM64MD maintains the ease of use that makes SACMI machines the market standard. In fact, the operation of this new CCM is the same as the machines currently on the market. Moreover, the newly designed HMI shortens the operator's learning curve, making process control even easier and more intuitive.

Application: Packaging| Food & Beverage

With Asano's advanced heat-set technology, the mold temperature can be set to 120°C, ensuring that formed products maintain their shape without deformation. The key advantage is that it enhances the heat resistance of polylactic acid (PLA), a biodegradable material, allowing it to withstand temperatures of up to 100°C under special conditions.

With Asano's advanced heat-set technology, the mold temperature can be set to 120°C, ensuring that formed products maintain their shape without deformation. The key advantage is that it enhances the heat resistance of polylactic acid (PLA), a biodegradable material, allowing it to withstand temperatures of up to 100°C under special conditions.

Application: Packaging| Food & Beverage

A commercial vehicle air tank co-created with WAL Low Carbon Technology (Anhui) Co. Ltd (WAL) and made with BASF's high-performance material solution Ultramid® polyamide. The innovative solution achieves a weight reduction of 10-20% compared to aluminum alternatives and over 50% compared to steel versions. Production of the air tank is also more energy efficient, since it only needs a one-piece injection molding process. This eliminates the need for secondary welding operations that are typically required for metal versions. Combined with its high burst pressure resistance above 50 bar (5MPa), the solution demonstrates consistent product quality and reliability in this demanding application.

A commercial vehicle air tank co-created with WAL Low Carbon Technology (Anhui) Co. Ltd (WAL) and made with BASF's high-performance material solution Ultramid® polyamide. The innovative solution achieves a weight reduction of 10-20% compared to aluminum alternatives and over 50% compared to steel versions. Production of the air tank is also more energy efficient, since it only needs a one-piece injection molding process. This eliminates the need for secondary welding operations that are typically required for metal versions. Combined with its high burst pressure resistance above 50 bar (5MPa), the solution demonstrates consistent product quality and reliability in this demanding application.

Application: Automotive

Battery separator film production line for highest efficiency. The new BSF 500+ separator line is especially designed for thin base film production with high mechanical properties.

Battery separator film production line for highest efficiency. The new BSF 500+ separator line is especially designed for thin base film production with high mechanical properties.

Application: Automotive| New Energy

The clamping mechanism has been comprehensively optimized with a linear guide rail design, ensuring smooth operation, quick mold changes, and efficient production. The new high-efficiency screw assembly enhances plasticizing performance, improves injection repeatability, reduces material accumulation, and effectively minimizes product defects such as black spots and yellowing. The lubrication system has been redesigned for a more stable machine operation and extended service life.

The clamping mechanism has been comprehensively optimized with a linear guide rail design, ensuring smooth operation, quick mold changes, and efficient production. The new high-efficiency screw assembly enhances plasticizing performance, improves injection repeatability, reduces material accumulation, and effectively minimizes product defects such as black spots and yellowing. The lubrication system has been redesigned for a more stable machine operation and extended service life.

Application: E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Optoelectronics| Medical

ACERETECH's rPET Food-Grade Decontamination Pelletizing System integrates predrying, compaction, extrusion, filtration, and pelletizing into a single process. This technology allows for 100% utilization of rPET material. The resulting pellets are melt-filtered, uniform, and dry, with flow characteristics similar to virgin resin. Solid-State Polycondensation (SSP) The continuous Solid-State Polycondensation process increases the viscosity of PET by adjusting the residence time in the reactor. This process also ensures purification, with an FDA no-objection letter issued in May 2024. The final product is crystalline pellets with properties comparable to virgin resin. The system meets food-contact applications under the following Conditions of Use: C-H A. High temperature heat-sterilized (e.g., over 212 deg. F). B. Boiling water sterilized. C. Hot filled or pasteurized above 150 deg. F. D. Hot filled or pasteurized below 150 deg. F. E. Room temperature filled and stored (no thermal treatment in the container). F. Refrigerated storage (no thermal treatment in the container). G. Frozen storage (no thermal treatment in the container). H. Frozen or refrigerated storage: Ready-prepared foods intended to be reheated in container at time of use: 1. Aqueous or oil-in-water emulsion of high- or low-fat; 2. Aqueous, high- or low-free oil or fat.

ACERETECH's rPET Food-Grade Decontamination Pelletizing System integrates predrying, compaction, extrusion, filtration, and pelletizing into a single process. This technology allows for 100% utilization of rPET material. The resulting pellets are melt-filtered, uniform, and dry, with flow characteristics similar to virgin resin.

Solid-State Polycondensation (SSP)
The continuous Solid-State Polycondensation process increases the viscosity of PET by adjusting the residence time in the reactor. This process also ensures purification, with an FDA no-objection letter issued in May 2024. The final product is crystalline pellets with properties comparable to virgin resin. The system meets food-contact applications under the following Conditions of Use: C-H
A. High temperature heat-sterilized (e.g., over 212 deg. F).
B. Boiling water sterilized.
C. Hot filled or pasteurized above 150 deg. F.
D. Hot filled or pasteurized below 150 deg. F.
E. Room temperature filled and stored (no thermal treatment in the container).
F. Refrigerated storage (no thermal treatment in the container).
G. Frozen storage (no thermal treatment in the container).
H. Frozen or refrigerated storage: Ready-prepared foods intended to be reheated in container at time of use: 1. Aqueous or oil-in-water emulsion of high- or low-fat; 2. Aqueous, high- or low-free oil or fat.

Application: Food & Beverage

DURAFIDE® PPS 1140HS6, developed by Polyplastics, represents a breakthrough achievement in material unification while significantly enhancing heat shock resistance. Through innovative material design research, this grade maintains ISO standard PPS >PPS-GF40< specifications while delivering improved heat shock resistance and maintaining excellent mechanical and fundamental properties. Technical Innovations: - Advanced material design reducing internal strain during molding - Superior heat shock resistance without impact modifiers - Maintains strength equivalent to conventional GF40% materials Performance Excellence: - Outstanding performance in rigorous heat shock testing (-40℃⇔140℃ cycling) - Superior flowability and low warpage characteristics - Significantly reduced mold contamination Environmental and Practical Benefits: - Excellent recyclability as a single GF40% material - Post-consumer recycling (PCR) is possible without separation from other PPS components - Ideal for demanding applications in new energy vehicles This development represents a significant step forward in sustainable engineering plastics, offering both environmental benefits and high-performance characteristics.

DURAFIDE® PPS 1140HS6, developed by Polyplastics, represents a breakthrough achievement in material unification while significantly enhancing heat shock resistance. Through innovative material design research, this grade maintains ISO standard PPS >PPS-GF40< specifications while delivering improved heat shock resistance and maintaining excellent mechanical and fundamental properties.

Technical Innovations:
- Advanced material design reducing internal strain during molding
- Superior heat shock resistance without impact modifiers
- Maintains strength equivalent to conventional GF40% materials

Performance Excellence:
- Outstanding performance in rigorous heat shock testing (-40℃⇔140℃ cycling)
- Superior flowability and low warpage characteristics
- Significantly reduced mold contamination

Environmental and Practical Benefits:
- Excellent recyclability as a single GF40% material
- Post-consumer recycling (PCR) is possible without separation from other PPS components
- Ideal for demanding applications in new energy vehicles

This development represents a significant step forward in sustainable engineering plastics, offering both environmental benefits and high-performance characteristics.

Application: Automotive

ENMA Crusher is a cutting-edge modular plastic shredder designed to simplify the waste plastic recycling process while increasing versatility and efficiency. It can handle various types, shapes, sizes and weights of plastic materials with a single machine. Its module components can be easily separated, making it suitable for both global markets and various production scales. It is with multiple technical protections and safety interlocks ensuring the safety of operators during both operation and maintenance. Whether recycling pallets, bales, lumps or synthetic fibers, EnMa Crusher can be configured to efficiently process a wide range of materials, maximizing captaincy and minimizing downtime. Combined with its energy-saving design, supports a greener, more sustainable future of the plastic recycling industry.

ENMA Crusher is a cutting-edge modular plastic shredder designed to simplify the waste plastic recycling process while increasing versatility and efficiency. It can handle various types, shapes, sizes and weights of plastic materials with a single machine. Its module components can be easily separated, making it suitable for both global markets and various production scales.

It is with multiple technical protections and safety interlocks ensuring the safety of operators during both operation and maintenance.

Whether recycling pallets, bales, lumps or synthetic fibers, EnMa Crusher can be configured to efficiently process a wide range of materials, maximizing captaincy and minimizing downtime. Combined with its energy-saving design, supports a greener, more sustainable future of the plastic recycling industry.

Application: Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Medical

The highest speed of ShaanxiBeiren 2025 model intelligent Rotogravure printing machine is 450m/min, which has excellent printing performance. The human-machine engineering and safety engineering of the equipment have been comprehensively upgraded, and new energy management and health management systems have been added to adapt to the high-speed printing of ink and water and the high-speed printing of special stretchable materials. It has the following characteristics: ① Full-automatic overprinting can save 20% of the time and reduce the loss by 60%. ② The overprinting accuracy is ±0.05mm. There is zero loss during acceleration, deceleration and overprinting, and the loss during cutting and material changing is less than 10 meters. ③ The ink will not splash, saving about 60% of the solvent. ④ Intelligent operation, energy conservation and emission reduction, saving more than 50% of the energy consumption. ⑤ The equipment reduces the dependence on people and lowers the labor cost. ⑥ The maximum exhaust air volume of the equipment is less than 15,000m³/h, effectively improving the workshop environment and saving more than 20% of energy. ⑦ It can meet the high-speed printing of 22μm ultra-thin PE. ⑧ During high-speed printing at 450m/min, the loss of waste from cutting is less than 10 meters, and the yield rate is greatly improved.

The highest speed of ShaanxiBeiren 2025 model intelligent Rotogravure printing machine is 450m/min, which has excellent printing performance. The human-machine engineering and safety engineering of the equipment have been comprehensively upgraded, and new energy management and health management systems have been added to adapt to the high-speed printing of ink and water and the high-speed printing of special stretchable materials.

It has the following characteristics:
① Full-automatic overprinting can save 20% of the time and reduce the loss by 60%.
② The overprinting accuracy is ±0.05mm. There is zero loss during acceleration, deceleration and overprinting, and the loss during cutting and material changing is less than 10 meters.
③ The ink will not splash, saving about 60% of the solvent.
④ Intelligent operation, energy conservation and emission reduction, saving more than 50% of the energy consumption.
⑤ The equipment reduces the dependence on people and lowers the labor cost.
⑥ The maximum exhaust air volume of the equipment is less than 15,000m³/h, effectively improving the workshop environment and saving more than 20% of energy.
⑦ It can meet the high-speed printing of 22μm ultra-thin PE.
⑧ During high-speed printing at 450m/min, the loss of waste from cutting is less than 10 meters, and the yield rate is greatly improved.

Application: Packaging

As the first domestic LCP material supplier, Kingfa is focusing on the innovative technology to drive the sustainable development of society. The developed new generation of the low-carbon-emission Vicryst® LCP CER-B, based on the mass balance method, possesses at least 70% renewable component and contributes to at least 30% carbon emission reduction. Meanwhile, Vicryst® LCP CER-B maintain the same property and performance as the traditional oil based LCP material. In this way, it works better to keep a balance between the environmental protection and properties of material.

As the first domestic LCP material supplier, Kingfa is focusing on the innovative technology to drive the sustainable development of society. The developed new generation of the low-carbon-emission Vicryst® LCP CER-B, based on the mass balance method, possesses at least 70% renewable component and contributes to at least 30% carbon emission reduction. Meanwhile, Vicryst® LCP CER-B maintain the same property and performance as the traditional oil based LCP material. In this way, it works better to keep a balance between the environmental protection and properties of material.

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive

1. Plateless printing – Ideal for high variety, small batch, multi-batch, and variable data production. There's no minimum order quantity requirement. 2. Compared to traditional gravure printing machines, it boosts efficiency by 50%. 3. With a high image resolution of 1200x1200dpi, design is no longer constrained by printing techniques. Complex patterns and delicate hues alike can be flawlessly reproduced on flexible packaging, enhancing the package's visual allure and bringing the brand's personalized touch to life. 4. High-density water-based pigment ink guarantees food safety, high color density, and colorfastness of the printed items. 5. Environmentally friendly with zero VOC emissions.

1. Plateless printing – Ideal for high variety, small batch, multi-batch, and variable data production. There's no minimum order quantity requirement.
2. Compared to traditional gravure printing machines, it boosts efficiency by 50%.
3. With a high image resolution of 1200x1200dpi, design is no longer constrained by printing techniques. Complex patterns and delicate hues alike can be flawlessly reproduced on flexible packaging, enhancing the package's visual allure and bringing the brand's personalized touch to life.
4. High-density water-based pigment ink guarantees food safety, high color density, and colorfastness of the printed items.
5. Environmentally friendly with zero VOC emissions.

Application: Packaging

(1) Simple in Design, Showcasing Industrial Aesthetics; (2) Streamlined Processes, Initiating Efficient Operations; (3) Good Visibility and Accessibility, Facilitating Convenient Maintenance; (4) Energy - efficient Design, Practicing Green Development; (5) Cutting - edge Plasticizing and Injection, Pioneering New Technological Chapters; (6) Intelligent Control Center, Ensuring Efficient Production

(1) Simple in Design, Showcasing Industrial Aesthetics;
(2) Streamlined Processes, Initiating Efficient Operations;
(3) Good Visibility and Accessibility, Facilitating Convenient Maintenance;
(4) Energy - efficient Design, Practicing Green Development;
(5) Cutting - edge Plasticizing and Injection, Pioneering New Technological Chapters;
(6) Intelligent Control Center, Ensuring Efficient Production

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Optoelectronics| Medical

ReliaSil™ UV HCR 241-60 is a low-temperature, UV cure silicone rubber with robust physical properties, suitable for long-term implants. This product utilizes a unique UV catalyst system that enables command-cure flexibility, providing increased cure speeds at ambient temperatures, without sacrificing the physical properties that give silicone elastomers the performance advantage over other room-temperature cure materials. This product is particularly suitable for implants that involve temperature-sensitive additives such as active pharmaceutical ingredients (APIs) or temperature-sensitive components such as batteries. Key features and typical benefits: 1. long-term implantion, >29 days 2. Cure on-demand by UV light 3. Room-temperature cure 4. Reduced shrinkage compared to heat-cured materials 5 Compatible with existing silicone extruders

ReliaSil™ UV HCR 241-60 is a low-temperature, UV cure silicone rubber with robust physical properties, suitable for long-term implants. This product utilizes a unique UV catalyst system that enables command-cure flexibility, providing increased cure speeds at ambient temperatures, without sacrificing the physical properties that give silicone elastomers the performance advantage over other room-temperature cure materials. This product is particularly suitable for implants that involve temperature-sensitive additives such as active pharmaceutical ingredients (APIs) or temperature-sensitive components such as batteries.

Key features and typical benefits:
1. long-term implantion, >29 days
2. Cure on-demand by UV light
3. Room-temperature cure
4. Reduced shrinkage compared to heat-cured materials
5 Compatible with existing silicone extruders

Application: Medical

Multi-component molding is a method in which two or more types of resins are sequentially injected inside the mold boasting higher production efficiency than insert injection or post-processing method. FLEXSHOT is an add-on type multi-injector that is additionally attached to the main injection machine and it's designed to make the customers enter into multi-injection introduction by including various installation methods and high space utilization. Possibility to use in parallel with normal injection products. Advantages: Comparing to the traditional ways for 2k or multi-k injection, it is much more convenient and cost-effective as customer may need to purchase another new 2k injection machine, which is much more expensive and time-consuming. For Flexshot, customer can put it on the sides of the mold, and it can adjust with the secondary nozzle inlets very flexibly. For the mold design it will have less limitations.

Multi-component molding is a method in which two or more types of resins are sequentially injected inside the mold boasting higher production efficiency than insert injection or post-processing method.

FLEXSHOT is an add-on type multi-injector that is additionally attached to the main injection machine and it's designed to make the customers enter into multi-injection introduction by including various installation methods and high space utilization. Possibility to use in parallel with normal injection products.

Advantages: Comparing to the traditional ways for 2k or multi-k injection, it is much more convenient and cost-effective as customer may need to purchase another new 2k injection machine, which is much more expensive and time-consuming. For Flexshot, customer can put it on the sides of the mold, and it can adjust with the secondary nozzle inlets very flexibly. For the mold design it will have less limitations.

Application: E&E, IT & Telecommunication| Automotive| Packaging| Daily Chemicals

The EC series twin-screw extruder is tailor-made for small to medium-scale production users, equipped with a new permanent magnet direct drive motor and an efficient transmission system. Compared to traditional asynchronous motor equipment, energy consumption is reduced by approximately 11%. Whether it's high-efficiency output or quiet operation, the EC series embodies the concept of "just right, is efficient" in every detail. Based on the large-scale production line control architecture, every alarm and every adjustment are clearly visible with precise feedback.

The EC series twin-screw extruder is tailor-made for small to medium-scale production users, equipped with a new permanent magnet direct drive motor and an efficient transmission system. Compared to traditional asynchronous motor equipment, energy consumption is reduced by approximately 11%. Whether it's high-efficiency output or quiet operation, the EC series embodies the concept of "just right, is efficient" in every detail. Based on the large-scale production line control architecture, every alarm and every adjustment are clearly visible with precise feedback.

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Optoelectronics| Medical

PIR industrial-grade recycled carbon fiber reinforced modified polymers: The material types include modified versions of PEEK, PA9T, PA6T, PA66, PA6, PBT, PET, PK and other substrates, with the highest carbon fiber content reaching up to 40%. They are used for lightweighting of automotive parts, as well as special specifications of recycled-grade carbon fiber modified materials developed by AKRO for additive manufacturing 3D printing.

PIR industrial-grade recycled carbon fiber reinforced modified polymers: The material types include modified versions of PEEK, PA9T, PA6T, PA66, PA6, PBT, PET, PK and other substrates, with the highest carbon fiber content reaching up to 40%. They are used for lightweighting of automotive parts, as well as special specifications of recycled-grade carbon fiber modified materials developed by AKRO for additive manufacturing 3D printing.

Application: E&E, IT & Telecommunication| Automotive| New Energy

High-performance polymers such as Polyphthalamide (PPA), Polyetheretherketone (PEEK), Polyimide (PI), and Polyphenylene Sulfide (PPS) operate in environments that routinely exceed 250°C and, in some cases, approach 400°C. At these elevated temperatures, conventional organic pigments undergo thermally induced degradation, leading to discoloration, embrittlement, and in some orgaic dyes sublimation csn occur condensing on processing equipment causing staining and contamination. However, the challenge does not end with thermal resilience. Colorants must also demonstrate chemical inertness against aggressive automotive fluids, aerospace lubricants, and industrial solvents. In some applications they must maintain UV resistance to prevent photodegradation, low extractables and leachables to ensure compliance with regulatory standards, and excellent dispersion characteristics to avoid agglomeration, which can lead to stress concentration points within the polymer matrix.

High-performance polymers such as Polyphthalamide (PPA), Polyetheretherketone (PEEK), Polyimide (PI), and Polyphenylene Sulfide (PPS) operate in environments that routinely exceed 250°C and, in some cases, approach 400°C. At these elevated temperatures, conventional organic pigments undergo thermally induced degradation, leading to discoloration, embrittlement, and in some orgaic dyes sublimation csn occur condensing on processing equipment causing staining and contamination.

However, the challenge does not end with thermal resilience. Colorants must also demonstrate chemical inertness against aggressive automotive fluids, aerospace lubricants, and industrial solvents. In some applications they must maintain UV resistance to prevent photodegradation, low extractables and leachables to ensure compliance with regulatory standards, and excellent dispersion characteristics to avoid agglomeration, which can lead to stress concentration points within the polymer matrix.

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive| New Energy| Sports & Leisure| Food & Beverage

BASF's solution for extrudable busbar insulation is a material designed to meet market demands. It offers a broad processing window, good extrudability, reliable bending performance, effective insulation, anti-aging properties. The BASF solution integrates with mainstream long-chain PA, ensuring production efficiency with minimal adjustments. Its extrudability and thickness control enable precise insulation layers. The material's bonding strength with metal prevents bulging at bending corners, which is important for EV battery busbars. It maintains a smooth appearance after bending. With high initial resistance and dielectric performance under DC5000V, the BASF solution prevents electric breakdowns at high voltages. It retains insulation even after a 7-day water bath, suitable for moist environments. Operating effectively from -40 to 125°C, the BASF solution withstands harsh conditions while maintaining stable performance, ensuring durability in extreme temperatures and prolonged exposure to stressors.

BASF's solution for extrudable busbar insulation is a material designed to meet market demands. It offers a broad processing window, good extrudability, reliable bending performance, effective insulation, anti-aging properties.

The BASF solution integrates with mainstream long-chain PA, ensuring production efficiency with minimal adjustments. Its extrudability and thickness control enable precise insulation layers. The material's bonding strength with metal prevents bulging at bending corners, which is important for EV battery busbars. It maintains a smooth appearance after bending.

With high initial resistance and dielectric performance under DC5000V, the BASF solution prevents electric breakdowns at high voltages. It retains insulation even after a 7-day water bath, suitable for moist environments. Operating effectively from -40 to 125°C, the BASF solution withstands harsh conditions while maintaining stable performance, ensuring durability in extreme temperatures and prolonged exposure to stressors.

Application: Automotive

With a productivity increase of +50% compared to current standards, CCM64MD achieves a production performance never seen before: up to 2,850 capsules per minute, or 171,000 caps per hour, with only 64 molds. With this very high capacity, a single CCM64MD satisfies two of the fastest bottling lines on the market (80,000 bottles/hour) CCM64MD reduces specific energy consumption by 15% compared to previous generations of CCMs, which were already market leaders in this area. This manufacturer's new benchmark is 0.43 kWh/kg, which, in terms of emissions, corresponds to the saving of 8 tons of CO₂ equivalent every year with the same production. With the advantages of productivity and sustainability, CCM64MD maintains the ease of use that makes SACMI machines the market standard. In fact, the operation of this new CCM is the same as the machines currently on the market. Moreover, the newly designed HMI shortens the operator's learning curve, making process control even easier and more intuitive.

With a productivity increase of +50% compared to current standards, CCM64MD achieves a production performance never seen before: up to 2,850 capsules per minute, or 171,000 caps per hour, with only 64 molds. With this very high capacity, a single CCM64MD satisfies two of the fastest bottling lines on the market (80,000 bottles/hour)

CCM64MD reduces specific energy consumption by 15% compared to previous generations of CCMs, which were already market leaders in this area. This manufacturer's new benchmark is 0.43 kWh/kg, which, in terms of emissions, corresponds to the saving of 8 tons of CO₂ equivalent every year with the same production. With the advantages of productivity and sustainability, CCM64MD maintains the ease of use that makes SACMI machines the market standard. In fact, the operation of this new CCM is the same as the machines currently on the market. Moreover, the newly designed HMI shortens the operator's learning curve, making process control even easier and more intuitive.

Application: Packaging| Food & Beverage

The specific torque density reaches 15 Nm/cm³, with a maximum screw speed of 900 rpm. The compact structure enables low noise levels (≤80 dB(A)), and the transmission efficiency is ≥95%. The barrel features a nickel-based powder alloy sintered liner, which is wear- and corrosion-resistant and patent-pending. The new spiral cooling channel enhances cooling efficiency and minimizes deformation. For temperature control, it is equipped with an imported CO-AX coaxial valve, while heating is provided by an imported heating rod, ensuring high efficiency and long service life. The screw elements are made of hot isostatic pressed (HIP) material, offering 2-3 times the wear and corrosion resistance compared to domestic materials. The screw shaft is constructed from high-strength, high-toughness imported alloy steel, delivering excellent mechanical properties.With an optimized overall design, the system enhances transmission efficiency and operational stability.

The specific torque density reaches 15 Nm/cm³, with a maximum screw speed of 900 rpm. The compact structure enables low noise levels (≤80 dB(A)), and the transmission efficiency is ≥95%.

The barrel features a nickel-based powder alloy sintered liner, which is wear- and corrosion-resistant and patent-pending. The new spiral cooling channel enhances cooling efficiency and minimizes deformation. For temperature control, it is equipped with an imported CO-AX coaxial valve, while heating is provided by an imported heating rod, ensuring high efficiency and long service life. The screw elements are made of hot isostatic pressed (HIP) material, offering 2-3 times the wear and corrosion resistance compared to domestic materials. The screw shaft is constructed from high-strength, high-toughness imported alloy steel, delivering excellent mechanical properties.With an optimized overall design, the system enhances transmission efficiency and operational stability.

Application: Aerospace, Aviation, Railway Transport| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Medical

Major technological breakthroughs: 1) Solventless and dry lamination processes realize fusion application and free switching on the same triplex machine for the first time; 2) Digital semi-flexible coating system is adopted to improve coating accuracy and flexibility; 3) The use of ultra-short oven and series drying mode, improve the drying speed and energy efficiency, can be a large amount of solvent consumption; 4) Online energy measurement of carbon, providing real-time data for carbon footprint calculation. Greatest advantage: Fill the gap of similar models; The best process scheme can be obtained by combining the advantages of the two processes. Significantly increase speed, increase efficiency and reduce carbon. Benefits for users: Can be applied to a variety of functional or high-quality lamination, is a wider use, more efficient, more flexible is a new type of equipment!

Major technological breakthroughs:
1) Solventless and dry lamination processes realize fusion application and free switching on the same triplex machine for the first time;
2) Digital semi-flexible coating system is adopted to improve coating accuracy and flexibility;
3) The use of ultra-short oven and series drying mode, improve the drying speed and energy efficiency, can be a large amount of solvent consumption;
4) Online energy measurement of carbon, providing real-time data for carbon footprint calculation.

Greatest advantage:
Fill the gap of similar models; The best process scheme can be obtained by combining the advantages of the two processes. Significantly increase speed, increase efficiency and reduce carbon.

Benefits for users:
Can be applied to a variety of functional or high-quality lamination, is a wider use, more efficient, more flexible is a new type of equipment!

Application: Packaging| Daily Chemicals

1. Plateless printing – Ideal for high variety, small batch, multi-batch, and variable data production. There's no minimum order quantity requirement. 2. Compared to traditional gravure printing machines, it boosts efficiency by 50%. 3. With a high image resolution of 1200x1200dpi, design is no longer constrained by printing techniques. Complex patterns and delicate hues alike can be flawlessly reproduced on flexible packaging, enhancing the package's visual allure and bringing the brand's personalized touch to life. 4. High-density water-based pigment ink guarantees food safety, high color density, and colorfastness of the printed items. 5. Environmentally friendly with zero VOC emissions.

1. Plateless printing – Ideal for high variety, small batch, multi-batch, and variable data production. There's no minimum order quantity requirement.
2. Compared to traditional gravure printing machines, it boosts efficiency by 50%.
3. With a high image resolution of 1200x1200dpi, design is no longer constrained by printing techniques. Complex patterns and delicate hues alike can be flawlessly reproduced on flexible packaging, enhancing the package's visual allure and bringing the brand's personalized touch to life.
4. High-density water-based pigment ink guarantees food safety, high color density, and colorfastness of the printed items.
5. Environmentally friendly with zero VOC emissions.

Application: Packaging

(1) Simple in Design, Showcasing Industrial Aesthetics; (2) Streamlined Processes, Initiating Efficient Operations; (3) Good Visibility and Accessibility, Facilitating Convenient Maintenance; (4) Energy - efficient Design, Practicing Green Development; (5) Cutting - edge Plasticizing and Injection, Pioneering New Technological Chapters; (6) Intelligent Control Center, Ensuring Efficient Production

(1) Simple in Design, Showcasing Industrial Aesthetics;
(2) Streamlined Processes, Initiating Efficient Operations;
(3) Good Visibility and Accessibility, Facilitating Convenient Maintenance;
(4) Energy - efficient Design, Practicing Green Development;
(5) Cutting - edge Plasticizing and Injection, Pioneering New Technological Chapters;
(6) Intelligent Control Center, Ensuring Efficient Production

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Optoelectronics| Medical

The EC series twin-screw extruder is tailor-made for small to medium-scale production users, equipped with a new permanent magnet direct drive motor and an efficient transmission system. Compared to traditional asynchronous motor equipment, energy consumption is reduced by approximately 11%. Whether it's high-efficiency output or quiet operation, the EC series embodies the concept of "just right, is efficient" in every detail. Based on the large-scale production line control architecture, every alarm and every adjustment are clearly visible with precise feedback.

The EC series twin-screw extruder is tailor-made for small to medium-scale production users, equipped with a new permanent magnet direct drive motor and an efficient transmission system. Compared to traditional asynchronous motor equipment, energy consumption is reduced by approximately 11%. Whether it's high-efficiency output or quiet operation, the EC series embodies the concept of "just right, is efficient" in every detail. Based on the large-scale production line control architecture, every alarm and every adjustment are clearly visible with precise feedback.

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Optoelectronics| Medical

STAR's new economical robotic, with a completely new design that balances performance and quality improvements, brings customers a brand new user experience. 1) Productivity improvement: Equipped with a newly developed servo control system, the production efficiency is increased by more than 10% compared to similar models. 2) Improved operability: The new XC1 control system operation box achieves a smartphone like operating experience, ensuring convenient and safe human-machine interaction. 3) Maintainability improvement: Modular design concept, selection of standardized and universal components, reducing maintenance time and costs. 4) Application improvement: The weight that can be carried has increased by more than 20%, making it suitable for more complex working conditions.

STAR's new economical robotic, with a completely new design that balances performance and quality improvements, brings customers a brand new user experience.

1) Productivity improvement: Equipped with a newly developed servo control system, the production efficiency is increased by more than 10% compared to similar models.
2) Improved operability: The new XC1 control system operation box achieves a smartphone like operating experience, ensuring convenient and safe human-machine interaction.
3) Maintainability improvement: Modular design concept, selection of standardized and universal components, reducing maintenance time and costs.
4) Application improvement: The weight that can be carried has increased by more than 20%, making it suitable for more complex working conditions.

Application: E&E, IT & Telecommunication| Automotive| New Energy| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Optoelectronics| Medical

The DGM Gravix 20 has been specifically designed for micro-dosing applications. It features the exclusive double eyelid shutter device enabling high dosing standard thanks to an extremely fast reaction time, only 25 milliseconds. In addition, the algorithm operating on the Vibration Immunity System (VIS) overcomes the vibration challenge allowing the installation of the DGM directly on the processing machine. The Rotopulse technology (exclusive system able to dose even a single granule) and the free weighing hopper make these automations unsurpassed for all types of dosing situations. The DGM Gravix 20 is engineered for easy accessibility and rapid, tool free maintenance thanks to the removable hoppers. The user interface has been upgraded with the introduction of a new 7-inch touch view with icon-based programming for simple and intuitive management. The stainless-steel hoppers are equipped with sight glasses and are easily detachable for rapid change of production and cleaning operations. The DGM Gravix 20 represents an undisputed choice for those seeking excellence in the dosing of plastic granules, offering advanced performance that meets the stringent needs of industry professionals.

The DGM Gravix 20 has been specifically designed for micro-dosing applications. It features the exclusive double eyelid shutter device enabling high dosing standard thanks to an extremely fast reaction time, only 25 milliseconds. In addition, the algorithm operating on the Vibration Immunity System (VIS) overcomes the vibration challenge allowing the installation of the DGM directly on the processing machine. The Rotopulse technology (exclusive system able to dose even a single granule) and the free weighing hopper make these automations unsurpassed for all types of dosing situations.

The DGM Gravix 20 is engineered for easy accessibility and rapid, tool free maintenance thanks to the removable hoppers. The user interface has been upgraded with the introduction of a new 7-inch touch view with icon-based programming for simple and intuitive management. The stainless-steel hoppers are equipped with sight glasses and are easily detachable for rapid change of production and cleaning operations.

The DGM Gravix 20 represents an undisputed choice for those seeking excellence in the dosing of plastic granules, offering advanced performance that meets the stringent needs of industry professionals.

Application: E&E, IT & Telecommunication| Automotive| Food & Beverage| Medical

HRTP4000 can provide high heat resistance, wear resistance, and high flexibility of the final product through differentiated technical features such as ultra-high molecular weight and high porosity compared to existing general-purpose products. It is being commercialized by applying it to EV charging cables, automotive high-heat-resistant wires, wear-resistant flooring and automotive high flexible artificial leather. Improved flexibility can provide convenience for charging users and improved heat/cold resistance overcomes the limitations of use in extreme environments of wires. In addition, improved wear resistance extended the life of the flooring and Soft-touch improvements made it possible to replace other materials in automotive leather.

HRTP4000 can provide high heat resistance, wear resistance, and high flexibility of the final product through differentiated technical features such as ultra-high molecular weight and high porosity compared to existing general-purpose products. It is being commercialized by applying it to EV charging cables, automotive high-heat-resistant wires, wear-resistant flooring and automotive high flexible artificial leather. Improved flexibility can provide convenience for charging users and improved heat/cold resistance overcomes the limitations of use in extreme environments of wires. In addition, improved wear resistance extended the life of the flooring and Soft-touch improvements made it possible to replace other materials in automotive leather.

Application: Automotive| Building Materials

DURAFIDE® PPS 1140HS6, developed by Polyplastics, represents a breakthrough achievement in material unification while significantly enhancing heat shock resistance. Through innovative material design research, this grade maintains ISO standard PPS >PPS-GF40< specifications while delivering improved heat shock resistance and maintaining excellent mechanical and fundamental properties. Technical Innovations: - Advanced material design reducing internal strain during molding - Superior heat shock resistance without impact modifiers - Maintains strength equivalent to conventional GF40% materials Performance Excellence: - Outstanding performance in rigorous heat shock testing (-40℃⇔140℃ cycling) - Superior flowability and low warpage characteristics - Significantly reduced mold contamination Environmental and Practical Benefits: - Excellent recyclability as a single GF40% material - Post-consumer recycling (PCR) is possible without separation from other PPS components - Ideal for demanding applications in new energy vehicles This development represents a significant step forward in sustainable engineering plastics, offering both environmental benefits and high-performance characteristics.

DURAFIDE® PPS 1140HS6, developed by Polyplastics, represents a breakthrough achievement in material unification while significantly enhancing heat shock resistance. Through innovative material design research, this grade maintains ISO standard PPS >PPS-GF40< specifications while delivering improved heat shock resistance and maintaining excellent mechanical and fundamental properties.

Technical Innovations:
- Advanced material design reducing internal strain during molding
- Superior heat shock resistance without impact modifiers
- Maintains strength equivalent to conventional GF40% materials

Performance Excellence:
- Outstanding performance in rigorous heat shock testing (-40℃⇔140℃ cycling)
- Superior flowability and low warpage characteristics
- Significantly reduced mold contamination

Environmental and Practical Benefits:
- Excellent recyclability as a single GF40% material
- Post-consumer recycling (PCR) is possible without separation from other PPS components
- Ideal for demanding applications in new energy vehicles

This development represents a significant step forward in sustainable engineering plastics, offering both environmental benefits and high-performance characteristics.

Application: Automotive

Ultramid® T6000 bridges the gap between traditional PA66 and PA6T, offering superior mechanical and dielectric properties, particularly in humid conditions and at elevated temperatures. Its easy processing and low corrosion on tools make it the preferred choice for complex automotive applications. With its wide range of pre-color options, including vibrant shades, Ultramid® T6000 enhances aesthetic flexibility while maintaining high performance standards. The FR grade of Ultramid® T6000 is specifically designed for EV applications, offering exceptional high strength ideal for terminal block use. This innovative material enhances the durability of electrical systems in new energy vehicles by withstanding thermal shock from -40°C to 150°C for 1,000 cycles and provides excellent electrical isolation for terminal blocks and high voltage busbars, significantly improving safety on the vehicle's 800V platform. A standout feature is its non-halogenated flame retardant, which minimizes the risk of metal corrosion and meets stringent safety standards, ensuring protection for vehicle occupants in the event of a fire. Additionally, its remarkable strength, stiffness, and dimensional stability allow for the creation of complex designs that can endure the rigors of automotive assembly, while also facilitating the integration of multiple functions into single components, ultimately simplifying assembly and enhancing space efficiency in EVs.

Ultramid® T6000 bridges the gap between traditional PA66 and PA6T, offering superior mechanical and dielectric properties, particularly in humid conditions and at elevated temperatures. Its easy processing and low corrosion on tools make it the preferred choice for complex automotive applications. With its wide range of pre-color options, including vibrant shades, Ultramid® T6000 enhances aesthetic flexibility while maintaining high performance standards.

The FR grade of Ultramid® T6000 is specifically designed for EV applications, offering exceptional high strength ideal for terminal block use. This innovative material enhances the durability of electrical systems in new energy vehicles by withstanding thermal shock from -40°C to 150°C for 1,000 cycles and provides excellent electrical isolation for terminal blocks and high voltage busbars, significantly improving safety on the vehicle's 800V platform. A standout feature is its non-halogenated flame retardant, which minimizes the risk of metal corrosion and meets stringent safety standards, ensuring protection for vehicle occupants in the event of a fire.

Additionally, its remarkable strength, stiffness, and dimensional stability allow for the creation of complex designs that can endure the rigors of automotive assembly, while also facilitating the integration of multiple functions into single components, ultimately simplifying assembly and enhancing space efficiency in EVs.

Application: New Energy

LG Chem's Low Glossy ABS can provide superior matte and skin-friendly texture, and cost reduction and efficiency. It is can be used in the case of high-gloss mold, so that the final injection product has a high-level matte texture, the gloss can be ensured in 10~20º (degree). Low Glossy ABS is mainly used in high-end home appliances and other fields. At the same time, matte ABS is closer to skin texture than high-gloss ABS, so it is also known as skin-friendly ABS. At present, LG Chem‘s matte ABS has been widely used in the world's leading home appliance companies and has been well received.

LG Chem's Low Glossy ABS can provide superior matte and skin-friendly texture, and cost reduction and efficiency. It is can be used in the case of high-gloss mold, so that the final injection product has a high-level matte texture, the gloss can be ensured in 10~20º (degree). Low Glossy ABS is mainly used in high-end home appliances and other fields.

At the same time, matte ABS is closer to skin texture than high-gloss ABS, so it is also known as skin-friendly ABS. At present, LG Chem‘s matte ABS has been widely used in the world's leading home appliance companies and has been well received.

Application: E&E, IT & Telecommunication

ReliaSil™ UV HCR 241-60 is a low-temperature, UV cure silicone rubber with robust physical properties, suitable for long-term implants. This product utilizes a unique UV catalyst system that enables command-cure flexibility, providing increased cure speeds at ambient temperatures, without sacrificing the physical properties that give silicone elastomers the performance advantage over other room-temperature cure materials. This product is particularly suitable for implants that involve temperature-sensitive additives such as active pharmaceutical ingredients (APIs) or temperature-sensitive components such as batteries. Key features and typical benefits: 1. long-term implantion, >29 days 2. Cure on-demand by UV light 3. Room-temperature cure 4. Reduced shrinkage compared to heat-cured materials 5 Compatible with existing silicone extruders

ReliaSil™ UV HCR 241-60 is a low-temperature, UV cure silicone rubber with robust physical properties, suitable for long-term implants. This product utilizes a unique UV catalyst system that enables command-cure flexibility, providing increased cure speeds at ambient temperatures, without sacrificing the physical properties that give silicone elastomers the performance advantage over other room-temperature cure materials. This product is particularly suitable for implants that involve temperature-sensitive additives such as active pharmaceutical ingredients (APIs) or temperature-sensitive components such as batteries.

Key features and typical benefits:
1. long-term implantion, >29 days
2. Cure on-demand by UV light
3. Room-temperature cure
4. Reduced shrinkage compared to heat-cured materials
5 Compatible with existing silicone extruders

Application: Medical

The current thin-walled designs for terminals face challenges such as reduced stiffness, diminished toughness, and severe warping when using traditional reinforced plastics like glass-fiber composites. In contrast, blade plastic not only delivers exceptional dimensional stability but also offers the following advantages: 1. High-Quality Aesthetics: Comparable to pure resins, with a visibly superior appearance to other reinforced products. 2. High Modulus: Rivaling fiber-reinforced materials, with a modulus range of 3,500–5,500 MPa. 3. High Toughness: Available in varying toughness grades, achieving up to 30 kJ/m² at the highest level. This translation maintains technical accuracy while emphasizing key performance metrics and comparative advantages.

The current thin-walled designs for terminals face challenges such as reduced stiffness, diminished toughness, and severe warping when using traditional reinforced plastics like glass-fiber composites. In contrast, blade plastic not only delivers exceptional dimensional stability but also offers the following advantages:

1. High-Quality Aesthetics: Comparable to pure resins, with a visibly superior appearance to other reinforced products.
2. High Modulus: Rivaling fiber-reinforced materials, with a modulus range of 3,500–5,500 MPa.
3. High Toughness: Available in varying toughness grades, achieving up to 30 kJ/m² at the highest level.

This translation maintains technical accuracy while emphasizing key performance metrics and comparative advantages.

Application: New Energy

BioLogiQ has 43 patents issued worldwide and 3 core patents for advancements in non-woven materials (XN series). The XN Series are designed to maintain the high performance of conventional non-woven materials made from polypropylene while significantly improving their environmental profile. They can be utilized on current commercialization without modification. The versatility of XN Series was demonstrated across various non-woven applications, e.g., lightweight spunbond fabrics for hygiene products; durable materials for isolation gowns/reusable bags; and melt-blown/bi-component fibres. The XN Series for nonwoven applications represents a unique technology invented by BioLogiQ - utilizing sustainable feedstocks and reducing reliance on fossil-based materials, plastic pollution and carbon footprint. The success of BioLogiQ XN series was well recognized, including the Gold Award at the 4th Asia Exhibition of innovations and inventions Hong Kong 2024 and the Jury Award at the Hong Kong Sustainable Development Innovation and Technology Award 2025.

BioLogiQ has 43 patents issued worldwide and 3 core patents for advancements in non-woven materials (XN series).

The XN Series are designed to maintain the high performance of conventional non-woven materials made from polypropylene while significantly improving their environmental profile. They can be utilized on current commercialization without modification. The versatility of XN Series was demonstrated across various non-woven applications, e.g., lightweight spunbond fabrics for hygiene products; durable materials for isolation gowns/reusable bags; and melt-blown/bi-component fibres.

The XN Series for nonwoven applications represents a unique technology invented by BioLogiQ - utilizing sustainable feedstocks and reducing reliance on fossil-based materials, plastic pollution and carbon footprint. The success of BioLogiQ XN series was well recognized, including the Gold Award at the 4th Asia Exhibition of innovations and inventions Hong Kong 2024 and the Jury Award at the Hong Kong Sustainable Development Innovation and Technology Award 2025.

Application: Packaging| Medical

BASF's solution for extrudable busbar insulation is a material designed to meet market demands. It offers a broad processing window, good extrudability, reliable bending performance, effective insulation, anti-aging properties. The BASF solution integrates with mainstream long-chain PA, ensuring production efficiency with minimal adjustments. Its extrudability and thickness control enable precise insulation layers. The material's bonding strength with metal prevents bulging at bending corners, which is important for EV battery busbars. It maintains a smooth appearance after bending. With high initial resistance and dielectric performance under DC5000V, the BASF solution prevents electric breakdowns at high voltages. It retains insulation even after a 7-day water bath, suitable for moist environments. Operating effectively from -40 to 125°C, the BASF solution withstands harsh conditions while maintaining stable performance, ensuring durability in extreme temperatures and prolonged exposure to stressors.

BASF's solution for extrudable busbar insulation is a material designed to meet market demands. It offers a broad processing window, good extrudability, reliable bending performance, effective insulation, anti-aging properties.

The BASF solution integrates with mainstream long-chain PA, ensuring production efficiency with minimal adjustments. Its extrudability and thickness control enable precise insulation layers. The material's bonding strength with metal prevents bulging at bending corners, which is important for EV battery busbars. It maintains a smooth appearance after bending.

With high initial resistance and dielectric performance under DC5000V, the BASF solution prevents electric breakdowns at high voltages. It retains insulation even after a 7-day water bath, suitable for moist environments. Operating effectively from -40 to 125°C, the BASF solution withstands harsh conditions while maintaining stable performance, ensuring durability in extreme temperatures and prolonged exposure to stressors.

Application: Automotive

The clamping mechanism has been comprehensively optimized with a linear guide rail design, ensuring smooth operation, quick mold changes, and efficient production. The new high-efficiency screw assembly enhances plasticizing performance, improves injection repeatability, reduces material accumulation, and effectively minimizes product defects such as black spots and yellowing. The lubrication system has been redesigned for a more stable machine operation and extended service life.

The clamping mechanism has been comprehensively optimized with a linear guide rail design, ensuring smooth operation, quick mold changes, and efficient production. The new high-efficiency screw assembly enhances plasticizing performance, improves injection repeatability, reduces material accumulation, and effectively minimizes product defects such as black spots and yellowing. The lubrication system has been redesigned for a more stable machine operation and extended service life.

Application: E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Optoelectronics| Medical

ACERETECH's rPET Food-Grade Decontamination Pelletizing System integrates predrying, compaction, extrusion, filtration, and pelletizing into a single process. This technology allows for 100% utilization of rPET material. The resulting pellets are melt-filtered, uniform, and dry, with flow characteristics similar to virgin resin. Solid-State Polycondensation (SSP) The continuous Solid-State Polycondensation process increases the viscosity of PET by adjusting the residence time in the reactor. This process also ensures purification, with an FDA no-objection letter issued in May 2024. The final product is crystalline pellets with properties comparable to virgin resin. The system meets food-contact applications under the following Conditions of Use: C-H A. High temperature heat-sterilized (e.g., over 212 deg. F). B. Boiling water sterilized. C. Hot filled or pasteurized above 150 deg. F. D. Hot filled or pasteurized below 150 deg. F. E. Room temperature filled and stored (no thermal treatment in the container). F. Refrigerated storage (no thermal treatment in the container). G. Frozen storage (no thermal treatment in the container). H. Frozen or refrigerated storage: Ready-prepared foods intended to be reheated in container at time of use: 1. Aqueous or oil-in-water emulsion of high- or low-fat; 2. Aqueous, high- or low-free oil or fat.

ACERETECH's rPET Food-Grade Decontamination Pelletizing System integrates predrying, compaction, extrusion, filtration, and pelletizing into a single process. This technology allows for 100% utilization of rPET material. The resulting pellets are melt-filtered, uniform, and dry, with flow characteristics similar to virgin resin.

Solid-State Polycondensation (SSP)
The continuous Solid-State Polycondensation process increases the viscosity of PET by adjusting the residence time in the reactor. This process also ensures purification, with an FDA no-objection letter issued in May 2024. The final product is crystalline pellets with properties comparable to virgin resin. The system meets food-contact applications under the following Conditions of Use: C-H
A. High temperature heat-sterilized (e.g., over 212 deg. F).
B. Boiling water sterilized.
C. Hot filled or pasteurized above 150 deg. F.
D. Hot filled or pasteurized below 150 deg. F.
E. Room temperature filled and stored (no thermal treatment in the container).
F. Refrigerated storage (no thermal treatment in the container).
G. Frozen storage (no thermal treatment in the container).
H. Frozen or refrigerated storage: Ready-prepared foods intended to be reheated in container at time of use: 1. Aqueous or oil-in-water emulsion of high- or low-fat; 2. Aqueous, high- or low-free oil or fat.

Application: Food & Beverage

Major technological breakthroughs: 1) Solventless and dry lamination processes realize fusion application and free switching on the same triplex machine for the first time; 2) Digital semi-flexible coating system is adopted to improve coating accuracy and flexibility; 3) The use of ultra-short oven and series drying mode, improve the drying speed and energy efficiency, can be a large amount of solvent consumption; 4) Online energy measurement of carbon, providing real-time data for carbon footprint calculation. Greatest advantage: Fill the gap of similar models; The best process scheme can be obtained by combining the advantages of the two processes. Significantly increase speed, increase efficiency and reduce carbon. Benefits for users: Can be applied to a variety of functional or high-quality lamination, is a wider use, more efficient, more flexible is a new type of equipment!

Major technological breakthroughs:
1) Solventless and dry lamination processes realize fusion application and free switching on the same triplex machine for the first time;
2) Digital semi-flexible coating system is adopted to improve coating accuracy and flexibility;
3) The use of ultra-short oven and series drying mode, improve the drying speed and energy efficiency, can be a large amount of solvent consumption;
4) Online energy measurement of carbon, providing real-time data for carbon footprint calculation.

Greatest advantage:
Fill the gap of similar models; The best process scheme can be obtained by combining the advantages of the two processes. Significantly increase speed, increase efficiency and reduce carbon.

Benefits for users:
Can be applied to a variety of functional or high-quality lamination, is a wider use, more efficient, more flexible is a new type of equipment!

Application: Packaging| Daily Chemicals

ZhongyunTech K socket is designed to significantly increase the strength of socket of corrugated pipes by improving the structure of socket. According to testings, the strength of K socket is almost doubled than the common double layer socket. Benefit for users: 1. This new socket design helps to avoid the socket deformation during the storage and transportation of corrugated pipes. 2. It will help to enhance the sealing of corrugated pipes by virtue of ultra-strength, avoid the risk of leakage.

ZhongyunTech K socket is designed to significantly increase the strength of socket of corrugated pipes by improving the structure of socket. According to testings, the strength of K socket is almost doubled than the common double layer socket.

Benefit for users:
1. This new socket design helps to avoid the socket deformation during the storage and transportation of corrugated pipes.
2. It will help to enhance the sealing of corrugated pipes by virtue of ultra-strength, avoid the risk of leakage.

Application: Building Materials| Optoelectronics

The EC series twin-screw extruder is tailor-made for small to medium-scale production users, equipped with a new permanent magnet direct drive motor and an efficient transmission system. Compared to traditional asynchronous motor equipment, energy consumption is reduced by approximately 11%. Whether it's high-efficiency output or quiet operation, the EC series embodies the concept of "just right, is efficient" in every detail. Based on the large-scale production line control architecture, every alarm and every adjustment are clearly visible with precise feedback.

The EC series twin-screw extruder is tailor-made for small to medium-scale production users, equipped with a new permanent magnet direct drive motor and an efficient transmission system. Compared to traditional asynchronous motor equipment, energy consumption is reduced by approximately 11%. Whether it's high-efficiency output or quiet operation, the EC series embodies the concept of "just right, is efficient" in every detail. Based on the large-scale production line control architecture, every alarm and every adjustment are clearly visible with precise feedback.

Application: Aerospace, Aviation, Railway Transport| E&E, IT & Telecommunication| Automotive| New Energy| Building Materials| Packaging| Daily Chemicals| Sports & Leisure| Food & Beverage| Optoelectronics| Medical