Although these process aids do not directly benefit preform manufacturers, who produce the initial plastic preforms, the advantages are realized at the bottle blower stage, where the preforms are heated and blown into their final bottle shapes. 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.

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.

Cesa™ Raise enhances the heat resistance of APET thermoformed packaging, allowing it to withstand temperatures up to 100°C. Cesa™ Raise Heat Stability Modifier for APET Packaging Overview of markets and applications, key characteristics and key benefits of Cesa Raise Heat Stability Modifier for APET Packaging

Cesa™ Raise enhances the heat resistance of APET thermoformed packaging, allowing it to withstand temperatures up to 100°C. Cesa™ Raise Heat Stability Modifier for APET Packaging Overview of markets and applications, key characteristics and key benefits of Cesa Raise Heat Stability Modifier for APET Packaging

Plastics do not readily conduct electricity, or heat and cool the way metals do. While conventional plastics retain heat, plastics containing thermally conductive fillers distribute heat and carry it away from the heat source. Aramid is heat- and wear-resistant, and it’s lighter but stronger than carbon fiber.

Cesa™ Fiber Additives for heat preservation are the formulated additives to enhance the heat preservation performance of textiles with synthetic fibers according to the test standard GB/T 30127- 2013. Fabrics made with Cesa Fiber Additives can absorb more heat when exposed to simulated sunlight with the wavelength from 320 to 1100nm. Photothermally active particles added to the fibers help transform the energy of invisible light rays into heat for enhanced comfort in cold temperatures.

Heat Resistance Heat Deflection Temperature @ 264 psi This can include technologies such as enhanced UV performance and heat stabilization.

Composite Heat Release Technology Composite Heat Release Technology for Firearm Barrels Composite Heat Release Technology

Thermoplastics, on the other hand, can be reformed and reset over and over again using heat. Thermoplastic itself means “the ability to be reprocessed by heat.” Or, if a product is made incorrectly or needs to be adjusted during the prototyping phase, it can simply be heated again and reshaped, creating no waste.

Our products for lighting systems allow for maximum output, control heat, and withstand harsh conditions inside and outside the car. LED useful life is affected by temperature, and aluminum heat sinks are prone to hot spots – to keep your lights cooler and running longer, replace aluminum with thermally conductive polymers