SYNTHETIC RESINOUS PLASTIC MATERIALS

Brand Owner (click to sort) Address Description
DYVAX E.I. DU PONT DE NEMOURS AND COMPANY DuPont Legal Trademark & Copyright Group 1007 Market Street Wilmington DE 19898 SYNTHETIC RESINOUS PLASTIC MATERIALS;
ELVAX THE DOW CHEMICAL COMPANY 2211 H.H. Dow Way Midland MI 48674 Synthetic Resinous Plastic Materials;
ELVAX PERFORMANCE MATERIALS NA, INC. 2211 H. H. DOW WAY MIDLAND MI 48674 Synthetic Resinous Plastic Materials;
SOLUTIONS FOR IMPROVED PERFORMANCE SOLUTIA INC. 575 Maryville Centre Drive St. Louis MO 63141 Synthetic resinous plastic materials in the form of powders, granules, emulsions for use in the industrial arts and for further manufacture; synthetic resin in the form of powders, resins, for industrial use and for further manufacture; recycled plastic resin and polyvinyl resin in the form of powders for use in the industrial arts and for further manufacture; tackifying and modifying synthetic resins for use in the tile, carpet, and vinyl sheet floor covering industries; and a tackifying synthetic resin for use in the manufacture of hot melt adhesives for use in tile, carpet, and vinyl sheet covering industries;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A process for rapidly infusing a synthetic resinous substrate with an alkali metal nitrite, comprises (a) essentially completely dissolving the alkali metal nitrite in supercritical carbon dioxide to form a solids-free solution having from about 1 to 15% by weight of the alkali metal nitrite; (b) contacting the synthetic resinous substrate with the solution for a time sufficient to transfer at least a portion of the alkali metal nitrite into the synthetic resinous substrate while maintaining the carbon dioxide under supercritical conditions; and, (c) decreasing pressure or temperature, or both, on the synthetic resinous material sufficiently to evolve carbon dioxide and leave micronized solid alkali metal nitrite crystals in an amount less than 2% by weight essentially uniformly distributed in the synthetic resinous substrate. If desired, up to about 15% by weight of sodium nitrite or potassium nitrite may be transported and deposited in the substrate if transparency of the substrate is irrelevant, because the substrate tends to become opaque.