Chemical Vapor Deposition and Infiltration

Vapor-phase processing methods enable the deposition of high-purity ceramic and carbon-based materials with exceptional precision. In thermal CVD, reactive gases decompose at elevated temperatures to form high-density coatings or monolithic structures. CVI applies this principle to porous, fiber-reinforced substrates, gradually densifying them from the inside out to produce robust ceramic matrix composites such as C/C and C/SiC. FBR systems extend this capability to particulate materials, suspending granular solids in a fluid-like gas stream for highly uniform chemical deposition.

With more than 30 years of engineering experience, we develop tailored reactor designs and process solutions for demanding industrial applications worldwide.

Chemical Vapor Deposition

CVD-proofed solutions are turnkey systems for general applications, such as graphite coating or ceramic matrix composite.

Chemical Vapor Deposition

Chemical Vapor Infiltration

Chemical vapor infiltration is the well-known technique to elaborate ceramic matrix composite such as carbon/carbon or carbon/silicon carbide composites with BN interface.

Chemical Vapor Infiltration

fluidized bed reactor in an industrial surrounding

Fluidized Bed Process

A Fluidized Bed Reactor is a versatile and widely used system for achieving efficient gas-solid reactions and uniform material coating in industrial processes.

Fluidized Bed Process