Recent Posts
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![Meet TYM at K 2025 -The World’ s No.1 Trade Fair for Plastics and Rubber]()
Meet TYM at K 2025 -The World’ s No.1 Trade Fair for Plastics and RubberWelcome to the World’s No.1 Trade Fair for Plastics and Rubber -K 2025, taking place from October 8–15, 2025 at Messe Düsseldorf, Germany. As a professional LSR injection molding machine, mold, and robot solution provider, TYM Technology Co., Ltd. is proud to present our latest innovations at Booth 16E77.
09/23/2025
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![Application of Thermally Conductive LSR Composite Materials in Electric Vehicle Battery Thermal Management]()
Application of Thermally Conductive LSR Composite Materials in Electric Vehicle Battery Thermal ManagementElectric vehicle battery systems generate significant heat that requires effective thermal management to maintain performance and safety.
04/14/2026
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![Breakthrough in Manufacturing Microstructure Optical Elements Using Photosensitive Curing LSR Materials]()
Breakthrough in Manufacturing Microstructure Optical Elements Using Photosensitive Curing LSR MaterialsPhotosensitive liquid silicone rubber materials enable revolutionary advances in micro-optical component manufacturing through ultraviolet-initiated curing processes.
04/14/2026
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![Environmentally Friendly Alternative Solutions for Disposable Medical Supplies Using Biodegradable LSR Materials]()
Environmentally Friendly Alternative Solutions for Disposable Medical Supplies Using Biodegradable LSR MaterialsDisposable medical supplies generate significant waste streams that require environmentally responsible alternatives.
04/14/2026
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![Performance Synergy Effects of LSR and Thermoplastic Elastomer (TPE) Composite Materials]()
Performance Synergy Effects of LSR and Thermoplastic Elastomer (TPE) Composite MaterialsComposite materials combining liquid silicone rubber with thermoplastic elastomers achieve synergistic property enhancements through molecular-level integration.
04/14/2026
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![Flexibility and Sealing Performance Research of LSR Materials in Extreme Low-Temperature Environments]()
Flexibility and Sealing Performance Research of LSR Materials in Extreme Low-Temperature EnvironmentsExtreme low-temperature applications demand liquid silicone rubber materials that maintain flexibility and sealing effectiveness at temperatures below minus seventy degrees Celsius.
04/14/2026
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![Safety and Efficacy of Antimicrobial LSR Materials in Medical Implant Devices]()
Safety and Efficacy of Antimicrobial LSR Materials in Medical Implant DevicesAntimicrobial liquid silicone rubber materials address growing concerns about healthcare-associated infections through controlled release of bacteriostatic agents.
04/14/2026
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![Weather Resistance Enhancement Technology for High-Transparency LSR in Flexible Display Encapsulation]()
Weather Resistance Enhancement Technology for High-Transparency LSR in Flexible Display EncapsulationFlexible display technology demands encapsulation materials that maintain optical clarity while providing environmental protection against moisture, oxygen, and ultraviolet radiation.
04/14/2026
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![Radiation and Vacuum Environment Adaptability of LSR Materials for Space Exploration]()
Radiation and Vacuum Environment Adaptability of LSR Materials for Space ExplorationSpace exploration applications subject materials to extreme radiation, vacuum, and temperature conditions that challenge conventional polymer performance.
04/14/2026
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![Ultra-Soft LSR Coating Materials Technology for Smart Textiles]()
Ultra-Soft LSR Coating Materials Technology for Smart TextilesSmart textile innovation merges traditional fabric functionality with electronic capabilities through integration of conductive elements, sensors, and responsive materials.
04/13/2026
Innovative LSR Materials for Hydrogen Fuel Cell Sealing Applications
Hydrogen fuel cell technology represents promising pathway toward sustainable transportation and energy generation systems. Sealing solutions for these applications require specialized liquid silicone rubber materials that resist hydrogen permeation, maintain mechanical properties under high-pressure conditions, and provide long-term reliability in chemically aggressive environments containing humidified hydrogen gas streams at elevated temperatures.
Material formulation challenges include minimizing gas permeability through polymer architecture optimization and specialized filler systems that reduce molecular mobility. Chemical resistance requirements encompass exposure to phosphoric acid electrolytes, humidified gases, and metallic catalysts without degradation or contamination. Thermal stability must extend to continuous service at 150-200°C while maintaining elastomeric properties necessary for effective sealing performance.
Performance validation includes hydrogen permeation testing, chemical compatibility evaluation, and accelerated aging studies under representative service conditions. Testing protocols simulate real-world exposure including thermal cycling, pressure fluctuations, and humidity variations encountered in fuel cell stack environments. Quality assurance systems verify consistent material properties through comprehensive incoming inspection and statistical process control procedures.
Application-specific design considerations include compression set resistance, creep relaxation behavior, and flange sealing compatibility with metallic and composite components. Manufacturing processes must maintain ultra-clean conditions to prevent contamination that might affect fuel cell performance or longevity. Supply chain management ensures reliable sourcing of specialized raw materials while maintaining traceability throughout production cycles for critical energy infrastructure applications.