Category: Process
Custom Rubber Molding
This blog discusses the history of rubber, the different types of rubber, and the process of custom rubber molding, along with the different industries that use rubber and the benefits of using custom rubber parts.
The Rubber Extrusion Process | RPM Rubber Parts
Rubber extrusion manufacturing begins with a specially designed steel die that shapes rubber compound under heat and pressure. The process allows material to swell and creates continuous lengths of specific profiles, making it economical and efficient for producing parts like gaskets, seals, and tubing.
What is Elastomer Molding?
Elastomers, which include materials like silicone and synthetic rubber, are elastic polymers ideal for molding due to their flexibility and performance. They can be molded through injection, compression, transfer, or cast molding methods, and are widely used in automotive, aerospace, medical, construction, and other industries.
What is Rubber to Metal Bonding?
Metal bonded rubber, essential for NVH applications, combines elastomers with metals through overmolding or encapsulation processes. Using methods like transfer and injection molding, manufacturers can create durable parts for automotive, agricultural, medical, transit, and construction industries, ensuring optimal performance when proper materials are selected.
What Role Does the Bond Play in an Industrial Isolator?
Industrial isolators are crucial rubber and metal components that protect machinery and operators by providing vibration isolation. Quality manufacturing, particularly in the metal-rubber bonding process, is essential as cheap, poorly made isolators can lead to catastrophic equipment failures and safety hazards.
Injection Rubber Molding
Injection rubber molding is a popular manufacturing method for creating custom and standard rubber parts, particularly for high-volume production and intricate designs. The process involves feeding uncured rubber into a machine, liquidizing it, injecting it into a mold cavity, and curing it under high pressure and temperature.