Silicon Powder for Thermal Spray
Stanford Advanced Materials (SAM) provides high quality silicon powder used for thermal spraying coatings.

The materials of thermal spray coatings are commonly in forms of powder, wire or rod. They are heated and convert to micrometer-size particles. Then the particles are accelerated towards substrates and create a coating.
Metalloid silicon powder for thermal spraying can be applied as a coating using either atmospheric plasma spray or chambered plasma spray such as LPPS or LVPS.

Thermal Spray Silicon Powder Specifications: Custom thermal spraying silicon powder, please confirm: Silicon powder purity, Silicon powder particle sizes, Silicon powder quantity
Thermal Spray Silicon Powder Purity: 99.9% - 99.999% (custom purity 
Thermal Spray Silicon Powder Particle Size: -45 +16 µm(custom size
Thermal Spray Silicon Powder Process: Plasma Densification

Thermal Spray Silicon Powder Applications:
Typical uses of our metalloid silicon powder:
-where low thermal expansion coefficient, excellent thermal shock resistance and thermal stability are needed
-ideal environmental barrier coating (EBC) bond coat for ceramic matrix composites (CMCs)

Thermal Spray Silicon powder storage

silicon powder storage: Store in a cool, dry location away from heat, sparks and open flame. Do not store with oxidizing agents, halogens or acids.

Silicon Powder Typical Chemical Properties Available:

Silicon powder packing

silicon powder can be delivered in big bags or in bulk.

Silicon powder Sample Available & Policy

Let our technical expertise and experience handle all of your requirements. We manufacture silicon metal broad range of sizes from our factories, we have a team of engineers who lend their specialized skill sin technical design to meet your exacting specifications. Samples are available at a cost, and always handled and delivered as quickly as possible.
Guarantees/Warranties/Terms and Conditions.
The quality of our products is guaranteed, Delivery guaranteed in 21 days after confirmation of order.