Composite Heat Release Technology Cesa™ Conductive Additives Cesa™ Raise Heat Stability Modifier for APET Packaging

High heat resistance Composite Heat Release Technology Cesa™ Raise Heat Stability Modifier for APET Packaging

Cesa™ Raise Heat Stability Modifier for APET Packaging Composite Heat Release Technology Cesa™ Raise Heat Stability Modifier for APET Packaging

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.

Cesa™ Raise Heat Stability Modifier for APET Packaging Composite Heat Release Technology Cesa™ Raise Heat Stability Modifier for APET Packaging

Cesa™ Fiber Additives for heat preservation can absorb more heat when exposed to solar rays. Cesa™ Fiber Additives for cool feeling can provide fast heat conduction and moisture absorption, allowing the body to feel cooler and more comfortable.

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.

THERMALLY CONDUCTIVE THERMOPLASTICS REDUCE WEIGHT IN VEHICLE LIGHT HEAT SINKS THERMALLY CONDUCTIVE THERMOPLASTICS REDUCE WEIGHT AND DISSIPATE HEAT © 2023, All Rights Reserved Avient Corporation, 33587 Walker Road, Avon Lake, Ohio USA 44012 Interested in learning more about thermally conductive thermoplastics? Traditionally aluminum or zinc aluminum alloys (Zamak) are used for heat sinks due to their high thermal conductivity, which was also the case at Elausa. Due to the success of this project, the new, lighter heat sink made from Therma- Tech conductive thermoplastics has been rolled out across multiple vehicle models.