Product name
LGAP 8138 Adhesion Promoter
Made in
China
Packing
200 kg/ Barrel
Introduction
LGAP 8138 improves the adhesion of paint film to metal, is easy to apply, dries quickly and is resistant to frost.
The product is applied for coating and primer on metal surfaces.
SANMU SM1056 Resin
Origin
Package
200 kg/ drum
Product information
Excellent high/low temperature resistance
Good weather resistance and chemical stability.
SM1056 can dry quickly without at room temperature. High harness hen fully cured (≥2H). High gloss, good fullness, no yellowing in high temperature yellowing
ETERMER 223
Product name:
Origin:
Taiwan
Packing:
200kg/drum
Description:
ETERMER 223 is a monomeric acrylic ester which is capable of polymerizing to a hard, infusible resin that is clear and glass-like. ETERMER 223 can be used as a comonomer in conjunction with vinyl-type monomers to produce crosslinked polymers.
JLS-APP
JLS ( China)
25kg/ bag
JLS-APP is a non-halogen flame retardant. It acts as flame retardant by intumescence mechanism. When APP-II is exposed to fire or heat, it decomposes to polymeric phosphate acid and ammonia.
JLS-Melamine
JLS-Melamine is an additive for intumescent paint.
JLS-Penta (Pentaerythritol)
JLS-Penta
20kg/ bag or 25kg/bag
JLS-Penta (Pentaerythritol) is a additive for intumescent paint
JLS-PNA220-A
25kg/bag
JLS-PNA220-A is a halogen-free intumescent flame retardant, which is suitable for Polypropylene and Polyethylene. Compared to the most common ammonium polyphosphate based FRs, JLS-PNA220-A shows good compatibility and more stable on improved UV aging anti-yellowing ability. It doesn’t deserve of synergists to obtain the UL 94 V-0 classification.
Kylin Pentaerythritol 95%
KYLIN PENTA 95%
CF-Chem ( China)
KYLIN Penta is more fine powder than ordinary pentaerythritol from other suppliers, which is mainly used for coating industry.
Ammonium polyphosphate (KYLIN APP201)
Ammonium polyphosphate (KYLIN APP201) is a non-halogen flame retardant. It acts as flame retardant by intumescence mechanism. When APP-II is exposed to fire or heat, it decomposes to polymeric phosphate acid and ammonia. The polyphosphoric acid reacts with hydroxyl groups to form a nonstable phosphateester. Following dehydration of the phosphateester, a carbon foam is built up on the surface and acts as an insulation layer.