MODELING CLAY CHILDREN

Brand Owner (click to sort) Address Description
ALL DAY CLAY THE DIPLOMA MILL, INC. 11585 E. 53rd Avenue, Unit D Denver CO 80239 modeling clay for children;clay;
AROMA PLAY WHOLELIFESERVICES 732 Roosevelt Ave Virginia Beach VA 23452 Modeling clay for children; Polymer modeling clay;
CRAY CLAY Buffalo Games 220 James E. Casey Drive 220 James E. Casey Drive Buffalo NY 14210 Modeling clay for children; Modeling compounds; Modeling materials and compounds for use by children; Modelling clay for children; Modelling compounds;CLAY;
OLD POTTERS RG NUTRITION & DIETETICS 42 Halley Dr. Pomona NY 10970 Modeling clay for children; Modelling clay;POTTERS;
TREASURE DOUGH Wigglebug, Inc. 732 S. Fulton Street Denver CO 80247 Modeling clay for children;DOUGH;
TRIPLE DOME MATTEL, INC. TWR 15-1 333 CONTINENTAL BOULEVARD EL SEGUNDO CA 90245 modeling clay for children;
WHOA DOUGH Buffalo Games 220 James E. Casey Drive 220 James E. Casey Drive Buffalo NY 14210 Modeling clay for children; Modeling materials and compounds for use by children;
 

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

    
Technical Examples
  1. The present invention relates to methods for the preparation of clay/polymer nanocomposites. The methods include combining an organophilic clay and a polymer to form a nanocomposite, wherein the organophilic clay and the polymer each have a peak recrystallization temperature, and wherein the organophilic clay peak recrystallization temperature sufficiently matches the polymer peak recrystallization temperature such that the nanocomposite formed has less permeability to a gas than the polymer. Such nanocomposites exhibit 2, 5, 10, or even 100 fold or greater reductions in permeability to, e.g., oxygen, carbon dioxide, or both compared to the polymer. The invention also provides a method of preparing a nanocomposite that includes combining an amorphous organophilic clay and an amorphous polymer, each having a glass transition temperature, wherein the organophilic clay glass transition temperature sufficiently matches the polymer glass transition temperature such that the nanocomposite formed has less permeability to a gas than the polymer.