PC Impact Modified Cold-Resistant

PC Impact Modified Cold-Resistant – High-Toughness Polycarbonate for Low-Temperature Environments

Impact-modified cold-resistant PC grades retain high toughness and ductility at sub-zero temperatures, minimizing brittle fracture risk in cold climates. These materials are engineered for outdoor lighting parts, automotive exterior fittings, lenses and housings used in cold-storage or Arctic conditions. Formulations improve low-temperature impact strength while maintaining heat resistance, dimensional stability and optical clarity where needed. Available options include UV-stabilized versions and surface treatments to preserve appearance under environmental stress.

Key Features

• Superior low-temperature impact resistance
  Maintains toughness and resists cracking in sub-zero or harsh winter conditions.

• Enhanced flexibility & shock absorption
  Ideal for components exposed to vibration, sudden force, or repeated impacts.

• Heat & cold stability
  Performs reliably across a wide temperature range without deformation.

• High mechanical strength
  Retains the strength, rigidity, and durability of PC.

• Chemical & weather resistance
  Suitable for industrial, outdoor, and mechanical environments.

• Low warpage & dimensional stability
  Ideal for precision-molded and engineered components.

• Easy to mold & machine
  Supports complex, high-precision part designs.

Ideal For

• Outdoor electronic housings and equipment

• Automotive interior/exterior components used in cold regions

• Industrial machinery operating in low-temperature or refrigerated environments

• Protective covers, guards, and impact-resistant parts

• Tools, appliances, and mechanical components requiring cold durability

• Consumer products used in winter or sub-zero conditions

Why Choose This Material

PC Impact Modified Cold-Resistant delivers top-tier toughness and reliability in environments where standard PC becomes brittle. For outdoor, automotive, industrial, or refrigeration applications, it ensures long-lasting performance, safety, and structural integrity under demanding low-temperature conditions.