Flame retardant natural ABS

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Min. Order:	1 Kilogram
Transportation:	Ocean,Land

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Product Description

Flame retardant ABS resin has good impact resistance, heat resistance, low temperature resistance, chemical resistance, and excellent electrical properties. It also has the characteristics of easy processing, stable product size, and good surface gloss. It is easy to coat and color, and can also undergo secondary processing such as surface spraying, electroplating, welding, hot pressing, and bonding. It is widely used in industrial fields such as machinery, automobiles, electronic appliances, instruments and meters, textiles, and construction, and is a widely used thermoplastic engineering plastic.Abs Plastic

Flame retardant ABS resin has good impact strength and surface hardness within a certain temperature range, good dimensional stability, certain chemical resistance, and good electrical insulation. Flame retardant ABS Plastic is opaque and generally appears light yellow (light ivory color), but can be made into any other color product with high gloss by coloring. The electroplated surface can be decorated with electroplating, vacuum coating, etc.Polycarbonate

Using ABS resin as the base material, adding high heat stable flame retardants, additives, etc., the product is mixed, melted, plasticized, granulated and packaged. It is a white granular material with high mechanical strength, good flame retardancy, and excellent flowability. The product has low shrinkage, a smooth appearance, and a certain degree of coating properties. Tensile strength 40MPa, flexural strength 65MPa, heat deformation temperature 89 ℃, flame retardant uL-94, V-O grade. Used for flame-retardant front frames of televisions and various other flame-retardant electrical components.PC Or ABS

Researchers select suitable expandable flame retardants and modify them to match nanoclay, resulting in a synergistic effect. On the premise of achieving the expected flame retardant level, the addition of low-cost nanoclay can reduce the amount of flame retardant used. In addition, the compatibility problem between the nanoclay/expansion type composite flame retardant system and the ABS matrix was solved by surface treatment with nanoclay and flame retardants, adding compatibilizers, processing modifiers, and other methods; By adopting the high dispersion process of nanoclay, it is possible to prevent the agglomeration of nanoclay and eliminate the mutual interference between it and the added additives, maximizing the synergistic effect and achieving good results at low addition levels.

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