CoCrW is one of the the stellite alloys, which can resist various types of wear, corrosion and oxidation at high temperature. According to the compositions of alloys, they can be made into welding wire, powder to be used for hard surface surfacing, thermal spraying, spray welding. They can also be made into castings, forgings and powder metallurgy parts.
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|6||Spherical Ti Powder||Ti≥99.9|
|11||In625||Cr20-23 , Mo8-10 , Nb 3.15-4.15 , Co≤1, Fe≤1 , Ni (bal.)|
|12||In718||Cr17-21 , Mo2.8-3.3 , Nb 4.75-5.5 , Co≤1, Ni50-51 , Fe(Bal.)|
|14||Spherical Cr Powder||Cr≥99.9|
|15||Spherica Mo Powder||Mo≥99.9|
|16||Spherica Ta Powder||Ta≥99.9|
|17||Spherica W Powder||W≥99.9|
CoCrW is one of the stellite alloys, which can resist various types of wear, corrosion and oxidation at high temperature. According to the compositions of alloys, they can be made into welding wire, powder to be used for hard surface surfacing, thermal spraying, spray welding. They can also be made into castings, forgings and powder metallurgy parts.
- Appearance: Grey powder
- Size: 15-53um
- Chemical Componet: Cr27-29，Mo5-7，Co(Bal.)
- PSD: D10=17.9μm，D50=31μm，D90=51.8μm
- Note: Other 3D printing powders are available upon any custome requirements
- 3D Printing
- Injection molding(MIM)
- Powder metallurgy(PM)
- Spraying coating(SP) etc.
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Hot Isostatic Pressing (HIP) technology works by placing the product in a closed container, filling it with inert gas and sintering or densifying the product at a very high temperature (usually close to the forging temperature of the material) and at a very high pressure (usually 100 – 140 MPa). This allows the product to be sintered or densified.
MIM products can be complex in shape, precise in size, high in strength and produced automatically in large quantities, and can significantly reduce the complexity and cost of traditional metalworking
SLM, also known as Selective Laser Melting, is similar in principle to SLS in that a laser is used to melt and solidify metal powder in a specified area, which is then moulded in a layer-by-layer stack.
Electron beam melting refers to a vacuum melting method in which the kinetic energy of a high speed electron beam stream is converted to heat as a heat source for melting metals under high vacuum. The abbreviation is EBM.
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