PROCESSED CLAY COMPACTING CLAY

Brand Owner (click to sort) Address Description
5-STAR PACKING CLAY PROFILE PRODUCTS 750 Lake Cook Road, Suite 440 Buffalo Grove IL 60089 Processed clay and compacting clay for building, topdressing, and maintaining athletic fields;FIVE-STAR PACKING CLAY;PACKING CLAY;
MARMOUND PROFILE PRODUCTS 750 Lake Cook Road, Suite 440 Buffalo Grove IL 60089 Processed clay and compacting clay for building, topdressing, and maintaining athletic fields;
MARMOUND CLAY PROFILE PRODUCTS 750 Lake Cook Road, Suite 440 Buffalo Grove IL 60089 Processed clay and compacting clay for building, topdressing, and maintaining athletic fields;CLAY;
SAF PROFILE PRODUCTS 750 Lake Cook Road, Suite 440 Buffalo Grove IL 60089 Processed clay and compacting clay for building, topdressing, and maintaining athletic fields; Aggregate material composed of shale and brick for sports field and landscape applications;Soil conditioners for athletic field maintenance; A calcium carbonate material processed for application as an athletic field marker;
SOUTHERN ATHLETIC FIELDS PROFILE PRODUCTS 750 Lake Cook Road, Suite 440 Buffalo Grove IL 60089 Processed clay and compacting clay for building, topdressing, and maintaining athletic fields;Soil conditioners for athletic field maintenance; a calcium carbonate material processed for application as an athletic field marker;ATHLETIC FIELDS;
 

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.