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- Antistatic Performance: Designed to prevent static charge accumulation, the AT433 film provides controlled dissipation, reducing electrostatic risks in sensitive environments.
- Wear Resistance: Offers excellent abrasion resistance typical of UHMW-PE, ensuring durability in high-friction and continuous operation systems.
- High Tensile Strength: With a tensile strength of 40–68 MPa, the film maintains reliable structural performance under mechanical stress.
- Excellent Elongation: The elongation range of 300%–480% ensures flexibility and resistance to cracking under repeated movement or impact.
- Controlled Surface Resistance: With a surface resistance of 10³ to 10¹² Ω, the material is suitable for antistatic applications where full conductivity is not required.
- Low Friction Performance: The self-lubricating surface reduces wear, noise, and energy loss in sliding and conveying systems.
- Chemical Stability: Resistant to a wide range of chemicals, ensuring consistent performance in industrial and electronic environments.
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- Conductive Performance: Designed to provide controlled electrical conductivity, the AT432 film enables effective static charge dissipation, making it suitable for ESD-sensitive environments.
- Wear Resistance: Offers outstanding abrasion resistance typical of UHMW-PE, ensuring long service life in high-friction and high-load applications.
- High Tensile Strength: With a tensile strength ranging from 40 to 68 MPa, the film maintains structural stability under mechanical stress.
- Excellent Elongation: The film delivers an elongation rate of 300%–480%, allowing flexibility and resistance to cracking under dynamic loads.
- Wide Surface Resistance Range: With a surface resistance of 10³ to 10¹² Ω, the film can function across conductive to dissipative applications depending on system requirements.
- Low Friction Performance: The inherent low coefficient of friction reduces wear, noise, and energy consumption in sliding or moving systems.
- Chemical Stability: Highly resistant to a wide range of chemicals, ensuring reliable performance in industrial and electronic manufacturing environments.
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- Enhanced High-Temperature Capability (Up to 135°C) : Designed for elevated temperature environments where conventional UHMW-PE would degrade.
- Black Formulation for Light Blocking: Provides improved UV/light shielding compared to transparent variants, suitable for sensitive components.
- Stable Mechanical Performance Under Heat: Maintains tensile strength (40–68 MPa) and elongation (300%–480%) even at higher temperatures.
- Wide Surface Resistance Range (10³–10¹² Ω): Covers conductive to insulating spectrum, offering flexibility across electrical applications.
- Low Friction & Self-Lubricating: Reduces wear and energy loss in moving systems such as conveyors and sliding parts.
- High Chemical Resistance: Suitable for use in chemically aggressive industrial environments.
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- Electrical Insulation: Designed to prevent electrical conductivity, the AT434 film provides stable and reliable insulation for electrical and electronic systems.
- Wear Resistance: Offers excellent abrasion resistance, ensuring long service life in high-friction and continuous operation environments.
- High Tensile Strength: With a tensile strength of 40–68 MPa, the film maintains structural integrity under mechanical stress.
- Excellent Elongation: The elongation range of 300%–480% ensures flexibility and resistance to cracking during dynamic movement.
- Stable Surface Resistance: With a surface resistance of 10³ to 10¹² Ω, the material supports insulating applications with controlled electrical properties.
- Low Friction Performance: The self-lubricating surface minimizes friction, reducing wear, noise, and energy consumption in moving systems.
- Chemical Stability: Resistant to a wide range of chemicals, ensuring consistent performance in industrial and processing environments.
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- Enhanced Adhesion Performance: Modified to improve bonding capability, the AT443 film enables strong adhesion to various substrates without complex surface treatment.
- Wear Resistance: Retains the excellent abrasion resistance of UHMW-PE, ensuring long-term durability in high-friction applications.
- High Tensile Strength: With a tensile strength of 40–68 MPa, the film maintains reliable structural performance under load.
- Excellent Elongation: The elongation range of 300%–480% ensures flexibility and resistance to cracking during dynamic operation.
- Black Light-Shielding Property: The black formulation reduces light transmission, protecting underlying components and improving outdoor or exposed performance.
- Stable Surface Resistance: With a surface resistance of 10³ to 10¹² Ω, the material supports a wide range of industrial applications.
- Low Friction Performance: Maintains self-lubricating characteristics, reducing wear, noise, and energy consumption in moving systems.
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- Outstanding Wear Resistance: The AT403 film excels in wear resistance, making it ideal for harsh environments and long-term use.
- High Tensile Strength: The film offers impressive tensile strength ranging from 40 to 68 MPa, ensuring strong mechanical performance under pressure.
- Flexible Elongation: With an elongation rate of 300%-480%, this film remains flexible and resistant to tearing, providing high adaptability.
- Chemical Resistance: The AT403 film resists a wide range of chemicals, ensuring reliable performance in industrial and chemical environments.
- Electrical Insulation: The film’s surface resistance of 10^3 to 10^12 Ω makes it perfect for electrical insulation applications.
- FDA Approved: Safe for use in food contact applications and medical environments, meeting FDA standards.
- Noise Reduction: Excellent impact absorption for superior noise dampening in sensitive environments.
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- Enhanced UV Resistance for Outdoor Durability: Designed to resist UV-induced aging, cracking, and performance degradation under prolonged sunlight exposure.
- Black Formulation for Maximum Light Shielding: Blocks UV and visible light more effectively than transparent films, protecting underlying components.
- Stable Mechanical Performance: Tensile strength of 40–68 MPa and elongation of 300%–480%, ensuring reliability in dynamic environments.
- Wide Surface Resistance Range (10³–10¹² Ω): Suitable for both insulating and controlled electrostatic applications.
- Low Friction & Self-Lubrication: Reduces wear, noise, and maintenance in sliding and moving systems.
- Excellent Environmental & Chemical Stability: Performs reliably in outdoor, humid, and chemically exposed conditions.
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- Superior High-Temperature Resistance: Designed to withstand high temperatures, making it perfect for environments where other films may fail.
- Color Customization: Available in a range of vibrant colors, combining both functionality and visual appeal for your specific needs.
- Excellent Wear Resistance: Offers superior wear resistance for applications in high-wear industrial environments.
- High Tensile Strength: With tensile strength ranging from 40 to 68 MPa, it maintains its structural integrity under heavy stress.
- Outstanding Elongation: The film remains flexible, with an elongation rate of 300%-480%, making it adaptable under load.
- Chemical Stability: Highly resistant to various chemicals, ensuring durability in different industrial settings.
- Electrical Insulation: Its surface resistance of10^3 to 10^12 Ω makes it suitable for electrical insulation applications.
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- High-Temperature Resistance: Designed to withstand temperatures up to 135°C, the AT412 film remains stable and functional under elevated temperature conditions.
- Superior Wear Resistance: Offers outstanding wear resistance, making it ideal for high-stress industrial applications.
- High Tensile Strength: With a tensile strength ranging from 40 to 68 MPa, the film maintains its integrity even under heavy load.
- Excellent Elongation: The film offers an impressive elongation rate of 300%–480%, ensuring flexibility without cracking.
- Chemical Stability: Highly resistant to a variety of chemicals, making it ideal for industrial and processing environments.
- Electrical Insulation: The film’s surface resistance of10^3 to 10^12 Ω ensures it can be used effectively for electrical insulation applications.
- FDA Approved: Safe for food contact, this film meets FDA standards for food and pharmaceutical applications.
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- Enhanced Adhesion Performance: Modified to improve surface bonding capability, the AT442 film enables stronger adhesion to rubber and other substrates without additional surface treatment.
- Wear Resistance: Maintains the excellent abrasion resistance of UHMW-PE, ensuring long-term durability in high-friction applications.
- High Tensile Strength: With a tensile strength of 40–68 MPa, the film provides reliable mechanical stability under load.
- Excellent Elongation: The elongation range of 300%–480% ensures flexibility and resistance to cracking under dynamic stress.
- Transparent Appearance: The natural (transparent) color allows for visibility and inspection in applications where monitoring is required.
- Stable Surface Resistance: With a surface resistance of 10³ to 10¹² Ω, the material supports a wide range of industrial applications.
- Low Friction Performance: Retains the self-lubricating characteristics of UHMW-PE, reducing wear and energy loss in moving systems.
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- Exceptional Wear Resistance: The AT402 film outperforms most materials in wear resistance, offering superior durability.
- High Tensile Strength: With tensile strengths between 40 and 68 MPa, this film exhibits impressive mechanical integrity even under stress.
- Transparent Appearance: It features a semi-transparent white appearance, making it ideal for applications where visibility or aesthetics are important.
- Excellent Elongation: The film has an elongation rate of 300%-480%, demonstrating significant flexibility under load.
- Low Density: With a density of 0.92 to 0.94g/cm³, it is lightweight compared to many other engineering plastics.
- Surface Resistance: A surface resistance range of 10^9 to 10^12 Ω, ensuring appropriate electrical properties for specific applications.
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