Additives for Low-Temperature Sealing Layers in Flexible Packaging Cesa™ Anti-Block Slip LS is a range of additives for flexible packaging that ensures smooth and efficient production of low-temperature layers in polyolefin mono-material films. Provides anti-block and slip functionalities for low-temperature sealing layers

Formulated without halogens, these materials do not emit corrosive gases, toxic fumes, or large amounts of smoke during a fire, which allows manufacturers to meet the more demanding CPR Euroclass B2ca and Cca as well as the more common Dca and Eca designations.

Excellent biocompatibility, smoke, and toxicity (FST) behavior

ECCOH™ Low Smoke and Fume Non-Halogen Formulations Cesa™ Low Retention Additives ColorMatrix™ Amosorb™ Low-Haze

Maxxam™ Polyolefin Formulations provided excellent performance with low dielectric constant to make the jacket layer of signal cables have low capacitance loss Cesa™ WithStand SX Low Haze Antimicrobial Additives Product description, key characteristics of low haze technology, markets and applications

Low Density with High Stiffness and Strength Ideal for Replacing Metals  Performance maintained at low and elevated temperatures Low coefficient of thermal expansion

Photovoltaic cables are low-voltage, high-weather-resistant cables that connect solar panels to an inverter. The sheath layer should have good insulation properties which are challenging to achieve with low coating thickness containing flame retardants. In Nordic countries, the basic requirement for photovoltaic cable is to survive operating temperatures as low as -40℃.  

Photovoltaic cables are low-voltage, high-weather-resistant cables that connect solar panels to an inverter. The sheath layer should have good insulation properties which are challenging to achieve with low coating thickness containing flame retardants. In Nordic countries, the basic requirement for photovoltaic cable is to survive operating temperatures as low as -40℃.  

Photovoltaic cables are low-voltage, high-weather-resistant cables that connect solar panels to an inverter. The sheath layer should have good insulation properties which are challenging to achieve with low coating thickness containing flame retardants. In Nordic countries, the basic requirement for photovoltaic cable is to survive operating temperatures as low as -40℃.