Colorant Chromatics™ Metallic Sulfone Pre-colored Colorants are developed for ultra-high heat and high-performance applications requiring a brilliant metallic finish. Developed for ultra-high heat applications Achieve high heat resistance and bright, vibrant colors.

Dissipates heat and reduces shaft wear   Flame and heat resistant, an excellent textile yarn for fabrics Lightweight, strong and durable, with good heat, flame and chemical resistance

PolyOne has developed new Geon™ Bold vinyl materials with dark, rich colors that stand up to the elements, especially heat build up, without losing their intensity or performance. However, standard exterior vinyl grades in dark colors suffer significant fading, solar heat build-up and loss of mechanical properties. Geon Bold formulations feature improved color retention in darker colors and a wider palette of low heat build-up colors compared to standard exterior vinyl grades.

High-heat Customization  With the help of select fiber reinforcements, fillers and additives, COMPTEK™ formulations for high-heat applications can be customized to meet performance needs for specific applications. Robust performance that stands up to high heat

Colors may be selected maximize or minimize heat retention and additives can be formulated to help film resist the degrading effects of sunlight, heat, moisture and agricultural chemicals. Greenhouse film must remain strong and flexible, even after months or years of exposure to intense sunlight, heat and humidity. These include colors that help control light transmission and heat retention.

With better heat and crush resistance versus foamed PE and FEP, Maxxam SY formulations also include options for 'zero halogen, low smoke and fume.' Crush and heat resistance Discover two distinct advantages over regular polyethylene: greatly-improved heat resistance and oil resistance

If heat dissipation is the primary driver, thermally conductive polymers could be an excellent alternative. However, advancements in engineering thermoplastics now enable effective heat dissipation comparable to metals but at a fraction of the weight. Thermally conductive plastics help dissipate the heat, adding life to the fixture while offering additional design and manufacturing benefits.

It measures how well a material absorbs energy in the form of heat but does not measure how well it releases the heat. In contrast, thermal inertia measures how quickly a material returns to ambient temperature after heating. THE BOTTOM LINE Barrels made with Composite Heat Release technology can be lighter, heat slower, and cool faster than traditional steel or carbon-wrapped steel barrels.

If heat dissipation is the primary driver, thermally conductive polymers could be an excellent alternative. However, advancements in engineering thermoplastics now enable effective heat dissipation comparable to metals but at a fraction of the weight. Thermally conductive plastics help dissipate the heat, adding life to the fixture while offering additional design and manufacturing benefits.

If heat dissipation is the primary driver, thermally conductive polymers could be an excellent alternative. However, advancements in engineering thermoplastics now enable effective heat dissipation comparable to metals but at a fraction of the weight. Thermally conductive plastics help dissipate the heat, adding life to the fixture while offering additional design and manufacturing benefits.