The present invention relates to a superabsorbent polymer and a method for producing the same. The superabsorbent polymer includes a core layer polymerized with monomers having carboxylic group, a first shell layer formed from a surface crosslinking agent, and a second shell layer formed from zingiberaceae extracts. By a surface modification on the first shell layer performed from a specific amount of the zingiberaceae extracts, the superabsorbent polymer produced according to the method for producing the same has a good antimicrobial property and deodorizing effects, and retains an original absorbent property.

The present invention relates to a superabsorbent polymer and a method for producing the same. The superabsorbent polymer includes a core layer polymerized with monomers having carboxylic group, a first shell layer formed from a surface crosslinking agent, and a second shell layer formed from zingiberaceae extracts. By a surface modification on the first shell layer performed from a specific amount of the zingiberaceae extracts, the superabsorbent polymer produced according to the method for producing the same has a good antimicrobial property and deodorizing effects, and retains an original absorbent property.

This disclosure relates to an aliphatic-aromatic copolyester of poly(butylene-co-adipate terephthalate) that is prepared from recycled polyethylene terephthalate in the presence of titanium catalyst and a phosphorous containing compound. The copolyester is contaminated with little or no ethylene glycol and/or isophthalic acid, which are artifacts of preparing the copolyester from recycled PET. Advantageously, because there is little or no contamination from ethylene glycol and/or isophthalic acid in the copolyester, there is essentially no depression in the material's melting temperature.

The disclosed embodiments describe a novel approach to the utilization of the fine mineral matter derived from coal and/or coal refuse (a by-product of coal refining) to convert a non-biodegradable plastic into a biodegradable plastic. The fine mineral matter could also be based on volcanic basalt, glacial rock dust deposits, iron potassium silicate and other sea shore mined deposits. The conversion of the non-biodegradable plastic into biodegradable plastic in soil further increases nutrients availability in soil with the transition metals released as a result of biodegradation of the biodegradable plastic.

There is provided a curable resin composition capable of obtaining a resin molded body that is excellent in wear resistance and has a high flexural modulus. The curable resin composition according to the present invention contains a polyol compound, an isocyanate compound, a long reinforcing fiber, and a filler, in which the specific gravity of the filler is less than 4 and the average circularity of the filler is 0.65 or more.

There is provided a curable resin composition capable of obtaining a resin molded body that is excellent in wear resistance and has a high flexural modulus. The curable resin composition according to the present invention contains a polyol compound, an isocyanate compound, a long reinforcing fiber, and a filler, in which the specific gravity of the filler is less than 4 and the average circularity of the filler is 0.65 or more.

There is provided a curable resin composition capable of obtaining a resin molded body that is excellent in wear resistance and has a high flexural modulus. The curable resin composition according to the present invention contains a polyol compound, an isocyanate compound, a long reinforcing fiber, and a filler, in which the specific gravity of the filler is less than 4 and the average circularity of the filler is 0.65 or more.

A wood plastic composite comprises a thermoplastic resin, a lignocellulosic filler, a flame retardant material in an amount of between 10 to 20 percent by weight, based on the total weight of the composite, and optionally other additives, wherein the flame retardant material comprises one or more compounds selected from the group of a cyclic organophosphorous compound and mixtures of the cyclic organophosphorous compound together with a nitrogen-containing organic compound, and optionally a minor amount of an inorganic flame retardant.

A wood plastic composite comprises a thermoplastic resin, a lignocellulosic filler, a flame retardant material in an amount of between 10 to 20 percent by weight, based on the total weight of the composite, and optionally other additives, wherein the flame retardant material comprises one or more compounds selected from the group of a cyclic organophosphorous compound and mixtures of the cyclic organophosphorous compound together with a nitrogen-containing organic compound, and optionally a minor amount of an inorganic flame retardant.

The present disclosure relates generally to polyurethane matrix composite materials, for example, suitable for making an exterior cladding product for houses and other buildings. The present disclosure relates more particularly to a polymer matrix composite material including a polyurethane matrix and an inorganic filler in a range from 45% to 85% by weight of the composite material. The inorganic filler includes a first substance from the group consisting of calcium carbonate, sand, talc, kaolin clay, dolomite, feldspar and mica and any mixture thereof, and fly ash, and/or an iron oxide in a range from 0.5% to 7% by weight of the inorganic filler.