The Anti-Static TPR Masterbatch utilizes a dual-mechanism approach: ionic antistats (e.g., glycerol monostearate or ethoxylated amines) provide surface hydrophilicity to dissipate static via moisture absorption, while conductive fillers (e.g., 2-5% CNT or 15-20% carbon black) form percolation networks for bulk conductivity. This synergy achieves a

The Impact-Modified TPR Masterbatch employs a hybrid toughening system combining core-shell elastomers (e.g., SEBS with 30% styrene content, POE with <0.88 g/cm³ density) and surface-modified nano-fillers (e.g., 20-50nm CaCO₃, silica).

The Anti-Oxidation & Aging-Resistant TPR Masterbatch is engineered with synergistic stabilizers, including hindered phenol antioxidants, phosphite secondary antioxidants, and UV absorbers (e.g., benzotriazoles) or Hindered Amine Light Stabilizers (HALS). These additives work cohesively to scavenge free radicals and quench singlet oxygen, thereby pr

Flame-Retardant TPR Masterbatch utilizes halogen-free or halogenated additives (e.g., aluminum hydroxide) to achieve UL94 V-0/V-2 ratings by interrupting combustion chains.

The Filler-Reinforced TPR Masterbatch incorporates inorganic fillers (e.g., calcium carbonate, talc) to reduce material costs while enhancing dimensional stability.