The present invention relates to thermally conductive materials, including, for instance, thermally conductive tubing and thermally conductive apparel, and applications thereof. In particular, the invention relates to thermally conductive tubing that can used in thermoregulatory apparel, such as, for example, cooling garments and cooling vests. In at least one embodiment, the present invention includes a thermally conductive material made from one or more base polymers and one or more additives that increase the thermal conductivity of the thermally conductive material relative to the one or more base polymers. The base polymer may include, for example, ethylene vinyl acetate (EVA), and the additive may include, for example, graphite fibers. The thermally conductive material may also include, for instance, a secondary polymer, such as ethylene propylene diene monomer (EPDM) and/or a plasticizer, such as bis(2-ethylhexyl) adipate (DEHA). Thermally conductive material produced according to one or more embodiments of the present invention may also be extruded or formed to create thermally conductive tubing and/or sheets.

The present invention relates to thermally conductive materials, including, for instance, thermally conductive tubing and thermally conductive apparel, and applications thereof. In particular, the invention relates to thermally conductive tubing that can used in thermoregulatory apparel, such as, for example, cooling garments and cooling vests. In at least one embodiment, the present invention includes a thermally conductive material made from one or more base polymers and one or more additives that increase the thermal conductivity of the thermally conductive material relative to the one or more base polymers. The base polymer may include, for example, ethylene vinyl acetate (EVA), and the additive may include, for example, graphite fibers. The thermally conductive material may also include, for instance, a secondary polymer, such as ethylene propylene diene monomer (EPDM) and/or a plasticizer, such as bis(2-ethylhexyl) adipate (DEHA). Thermally conductive material produced according to one or more embodiments of the present invention may also be extruded or formed to create thermally conductive tubing and/or sheets.

The invention relates to a thermoplastic molding composition comprising 5.0 to 57 wt.-% ABS graft copolymer (A); 30.5 to 80 wt.-% SAN copolymer (B) 1.5 to 9.5 wt.-% copolymer (C) with epoxy, maleic anhydride or maleic imide functions; 5 to 29 wt.-% of hollow glass microspheres (D); 6 to 12 wt.-% of glass fibers (E); 0 to 5 wt.-% additives and/or processing aids (F), having a low density and high strength, and a process for its preparation, shaped arti-cles thereof, and its use in the electronics sector.

The invention relates to a thermoplastic molding composition comprising 5.0 to 57 wt.-% ABS graft copolymer (A); 30.5 to 80 wt.-% SAN copolymer (B) 1.5 to 9.5 wt.-% copolymer (C) with epoxy, maleic anhydride or maleic imide functions; 5 to 29 wt.-% of hollow glass microspheres (D); 6 to 12 wt.-% of glass fibers (E); 0 to 5 wt.-% additives and/or processing aids (F), having a low density and high strength, and a process for its preparation, shaped arti-cles thereof, and its use in the electronics sector.

A radical polymerizable composition having at least one acidic radical polymerizable monomer, at least one fluoroaluminosilicate glass filler and/or radiopaque glass filler, and at least one water-soluble sulfate and/or phosphate.

A radical polymerizable composition having at least one acidic radical polymerizable monomer, at least one fluoroaluminosilicate glass filler and/or radiopaque glass filler, and at least one water-soluble sulfate and/or phosphate.

The present disclosure provides for articles formed of a filled polymeric resin material. More specifically, the present disclosure relates to polymeric resin materials that include a filler that includes of a mixture of cured rubber granules, foam granules, and/or textile fibers. The filler can be suspended in and/or encapsulated by the polymeric resin material. The polymeric resin material, the filler, or both can include waste or scrap material from manufacturing or from ground post-consumer waste.

The present disclosure provides for articles formed of a filled polymeric resin material. More specifically, the present disclosure relates to polymeric resin materials that include a filler that includes of a mixture of cured rubber granules, foam granules, and/or textile fibers. The filler can be suspended in and/or encapsulated by the polymeric resin material. The polymeric resin material, the filler, or both can include waste or scrap material from manufacturing or from ground post-consumer waste.

The present invention relates to pellets of a flame retardant long glass fibre reinforced polypropylene composition having a core containing glass fibres and a sheath of a polypropylene compound comprising a flame retardant composition and surrounding said core, wherein the flame retardant composition comprises a mixture of an organic phosphate compound, an organic phosphoric acid compound and zinc oxide. The invention further relates to flame retardant moulding compositions and articles manufactured using the pellets or the moulding compositions.

The present invention relates to pellets of a flame retardant long glass fibre reinforced polypropylene composition having a core containing glass fibres and a sheath of a polypropylene compound comprising a flame retardant composition and surrounding said core, wherein the flame retardant composition comprises a mixture of an organic phosphate compound, an organic phosphoric acid compound and zinc oxide. The invention further relates to flame retardant moulding compositions and articles manufactured using the pellets or the moulding compositions.