TARGET LAUNCHERS CLAY PIGEON

Brand Owner (click to sort) Address Description
CLAYMORE AOB PRODUCTS COMPANY 1800 North Route Z Columbia MO 65202 target launchers for clay pigeon shooting;
EUROTARGET Eurotarget S.r.l. Strada statale Flamina-Frazione Gaifana Nocera Umbra (PG) 06025 Italy Target launchers for clay pigeon traps; clay pigeons; firearm targets;EURO TARGET;
FLUORSPAR BLASTER Chen, Hongbin No. 88-2, Beitou, Anbing Village Zhongmen Town, Xiuyu District Putian City, Fujian 351152 China Target launchers for clay pigeon shooting; Electronic action toys; Electronic learning toys; Paintball guns; Paintballs; Play mats for the purpose of putting together puzzles; Spring-activated spearguns being sports articles; Toy air pistols; Toy building blocks; Toy guns; Toy models; Toy sling shots; Toy swords; Toy water globes; Toy water guns; Water-squirting toys;
PULLPUP AOB PRODUCTS COMPANY 1800 North Route Z Columbia MO 65202 target launchers for clay pigeon shooting;PULL PUP;
SLINGSHOT VISTA OUTDOOR OPERATIONS 1 Vista Way Anoka MN 55303 Target launchers for clay pigeon shooting; clay pigeon thrower;
 

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.