Product Introduction

High-strength Graphite Fiber Coated Rigid Composite Felt

Graphite Fiber Rigid Composite Felt (with coating) for Semiconductor is a revolutionary material that seamlessly integrates the benefits of both Graphite Soft Felt and Graphite Hard Felt. It is meticulously engineered to thrive in the challenging conditions encountered in semiconductor processes, where high temperatures and high vacuums are the norm.

At its core, this composite felt harnesses the exceptional properties of carbon fibers. Its high-strength carbon fiber skeleton not only ensures structural integrity but also provides the durability required for rigorous applications. What sets it apart is the innovative coating, meticulously designed to enhance its performance further.

In the world of semiconductor manufacturing, where stability and precision are paramount, our Graphite Fiber Rigid Composite Felt excels. It retains its structural integrity under the harshest conditions, offering reliability and quality that are second to none.

Our material builds upon the concept of Rigid Felt, created from carbon fiber soft felt through impregnation, bonding, curing, heat treatment, machining, and surface treatment. This process results in a material that combines the ease of installation and stable sizing of Rigid Felt with the insulation and durability advantages of Graphite Insulation Felt.

Compared to its softer counterpart, our Graphite Fiber Rigid Composite Felt boasts exceptional heat preservation, low attenuation, and an extended service life. These advantages, coupled with easy installation and stable sizing, make it the preferred choice for semiconductor applications, where precision and longevity are non-negotiable.

Product Features

It is prepared by composite forming of carbon fiber felt impregnated resin, and coated with surface carbon treatment layer, and can be deposited coating treatment after forming. It can also optimize the performance of the product according to the specific use environment, with better thermal field pertinence and better insulation effect.