Reduce energy to the blowing lamps allowing preforms to heat faster b. Increased Throughput: To achieve desired bottle quality, many blow molders will slow the blow speed, giving the preform optimal time to heat before blowing. Bottle Development Process: New developments are conducted using small-scale lab equipment, which serve as excellent molding platforms.

Reduce energy to the blowing lamps allowing preforms to heat faster b. Increased Throughput: To achieve desired bottle quality, many blow molders will slow the blow speed, giving the preform optimal time to heat before blowing. Bottle Development Process: New developments are conducted using small-scale lab equipment, which serve as excellent molding platforms.

In late 2016, PolyOne acquired COMPTEK (Diez, Germany), a specialist in formulations based on extreme-heat polymeric materials such as PEEK, PES, PEI, PPS, PSU and PPSU. Electrical and/or thermal conductivity

Conductive pipette tip manufacturer uses Trilliant™ HC specialty formulations to increase savings, processing ease, toughness and performance Supplier HellermannTyton switched to heat-stabilized Bergamid™ B70 G30H Black TM-X polyamide to produce a seat fastener at lower cost, lower weight and with greater design flexibility

By replacing aluminum with Therma-Tech™ thermally conductive polymer in the heat sink,manufacturers can significantly reduce total part weight and optimize production and logistics.

  Lightweight, strong and durable, with good heat, flame and chemical resistance   Versatile, corrosion resistant and conductive with excellent EMI shielding

Lightweight, strong and durable, with good heat, flame and chemical resistance Versatile, corrosion resistant and conductive with excellent EMI shielding

  Lightweight, strong and durable, with good heat, flame and chemical resistance   Versatile, corrosion resistant and conductive with excellent EMI shielding

Incorporating flame retardant additives can help mitigate fire hazards by increasing the ignition resistance of plastics, reducing the speed of flame spread, reducing heat release, and reducing smoke and fume generation. Antimicrobial and antifungal additives can protect the user interfaces and touchpoints from mold, mildew, and bacteria, while antistatic and conductive formulations can prevent static discharge and create safer, statically dissipated plastic parts.  

Incorporating flame retardant additives can help mitigate fire hazards by increasing the ignition resistance of plastics, reducing the speed of flame spread, reducing heat release, and reducing smoke and fume generation. Antimicrobial and antifungal additives can protect the user interfaces and touchpoints from mold, mildew, and bacteria, while antistatic and conductive formulations can prevent static discharge and create safer, statically dissipated plastic parts.