Rubber lasts longer when oxygen and ozone are controlled through a smart stabilizer package and sound processing. This guide shows how primary antiozonants, secondary...
Rubber vulcanization depends on the synergy between accelerators, activators, and kinetic control that together shape scorch safety, cure speed, and final properties. In this...
Rubber compounds succeed when each ingredient plays its role with balance, compatibility, and control. This guide explains the science and selection logic behind the...
Rubber-to-metal bonding joins elastomer components to steel, aluminum, or brass inserts so assemblies absorb vibration, seal fluids, and survive harsh environments. Success depends on...
Calendaring is the heart of precision sheet and film production in rubber processing, where small adjustments multiply into large quality gains. This guide presents...
Rubber extrusion turns uncured compound into continuous profiles with consistent shape, finish, and properties. Success depends on material behavior, stable processing, and robust tooling....
Rubber parts power many industries, from automotive and medical to energy and consumer goods. Selecting the right forming route determines dimensional stability, surface finish,...
Vulcanization turns soft gum into an engineered elastomer by creating crosslinks that lock chains together, raising strength, resilience, and thermal stability. Selecting a cure...
High performance rubber begins at the compounder’s bench, where choices about polymers, fillers, cure systems, and processing decide whether parts survive heat, chemicals, and...