About CoCrW Powder for 3D Printing
3D Printing Alloy CoCrW Powder from Stellite is one of these alloys. These hard alloys are resistant to wear, corrosion and high-temperature oxygenation. Also known as cobalt based alloy. Initially, the Stellite alloy was a binary cobalt-chromium alloy. Later it evolved to a cobalt chromium-tungsten ternary mixture. Cobalt Cr-W Alloy is an alloy with cobalt. This alloy contains a significant amount of cobalt and tungsten as well as a few molybdenums, nickel, silicon, carbon and sometimes iron. They are available in a variety of forms depending on the alloy composition, including as welding wire, powders for hard surfacing and spray welding.
The basic composition of cobalt-chromium-tungsten alloy is: Co:50%~58%,Cr:28%~30%,W:4%~6%,Ni:2%~4% and other alloy composition, melting point is 1470.As can be seen from the composition of the alloy, the cobalt and tungsten content of the alloy are very high, which makes the material has excellent high-temperature performance and has poor thermal conductivity. Cobalt-chromium and tungsten alloys in grinding processes spark in dark red. Because metal is so easy to block, it causes grinding conditions to rapidly deteriorate. Also, grinding heat is not easily spread which results in poor efficiency and surface burns. Send an inquiry for the most current price to purchase 3D Printing Alloy CoCrW Powder.
CoCrW Bonding Alloy Powder for 3D Printing
Composition(percentage by mass)
Additional elements lower than 1% are N, Nb
It contains no iron, beryllium and nickel
It is simple. 3D Printing Powder CoCrW Alloy produced?
Once the iron waste has reached its melting point the raw materials for cobalt chromium, nickel, tungsten and sulfur are added. After 40-60min of high-temperature treatment, temperature drops to 1150-1200degC. Temperatures then drop to 880-970degC, where it is possible to age the mixture for 2-3 hours. Next, temperature goes down to 880-970degC.
3D Printing Powder CoCrW Powder: Application :
CoCrW Powder is one example of a rough alloy that can resist wear, corrosion, and oxidation at elevated temperatures. They are available in a variety of forms depending on their composition, including welding wires, powders to hard-surface substrates, spray and thermal spray. These alloys can be used to make castings and forgings as well as powder metallurgy pieces.
COCRW can be used for laser/electron-beam additive manufacturing (SLM/EBM), in powder metalurgy (PM), spraying or welding, and many other applications. It is used primarily for the 3D printing biomedical products, including teeth and artificial joints.
Cobalt Cr-W is a widely-used alloy in engine engines, marine engines, and other aircraft.
The casting and non-vacuum melting of early cobalt chromium -tungsten alloys was used. The vacuum smelting of boron or zirconium is used for later-developed alloys such as the MAR-509 alloy.
Generally, cobalt-chromium-tungsten alloy lacks a uniform strengthening phase. Its strength at low temperatures (only 50-75% compared to nickel-based alloy) is high. However, it also has good thermal fatigue resistance. It can be used for making nozzle guidevanes and guides vanes of aircraft jet engines, industrial gas turbines and naval gas turbines.
CoCrW Powder Storage Conditions:
CoCrW’s powder performance will suffer from damp reunion. Additionally, CoCrW should not be exposed to stress.
Shipping CoCrW Powder
Many types of packing are available depending on CoCrW’s powder amount.
CoCrW Powder Packaging:Vacuum Packing, 100g to 500g or 1kg/bag at 25kg/barrel. Or as you request.
CoCrW shipping: CoCrW can be shipped by sea, air or express as soon after payment receipt.
The basic composition of cobalt-chromium-tungsten alloy is: Co:50%~58%,Cr:28%~30%,W:4%~6%,Ni:2%~4% and other alloy composition, melting point is 1470.As can be seen from the composition of the alloy, the cobalt and tungsten content of the alloy are very high, which makes the material has excellent high-temperature performance and has poor thermal conductivity. Cobalt-chromium and tungsten alloys in grinding processes spark in dark red. Because metal is so easy to block, it causes grinding conditions to rapidly deteriorate. Also, grinding heat is not easily spread which results in poor efficiency and surface burns. Send an inquiry for the most current price to purchase 3D Printing Alloy CoCrW Powder.
CoCrW Bonding Alloy Powder for 3D Printing
Composition(percentage by mass)
| Co | Cr | W | Si | C | B | Mn | Fe |
| Bal | 27.62 | 8.79 | 1.5 | 0.99 | 0.56 | 0.5 | 0.5 |
Additional elements lower than 1% are N, Nb
It contains no iron, beryllium and nickel
| Kategorie | Grades and specific characteristics of alloys |
| The alloy number | CoCr(W) |
| The particle size | 0-20mm, 15-45mm, 15-53mm, 53-105mm, 53-150mm, 105-250mm |
| Morphology: | Spherical to almost spherical |
| Appearance: | Grey |
| Package: | Aluminum bag, Vacuum packing |
| Application: | Powder for 3D printing of metal |
| Others applications | powder metallurgy(PM), injection molding(MIM), spray painting(SP) etc. |
It is simple. 3D Printing Powder CoCrW Alloy produced?
Once the iron waste has reached its melting point the raw materials for cobalt chromium, nickel, tungsten and sulfur are added. After 40-60min of high-temperature treatment, temperature drops to 1150-1200degC. Temperatures then drop to 880-970degC, where it is possible to age the mixture for 2-3 hours. Next, temperature goes down to 880-970degC.
3D Printing Powder CoCrW Powder: Application :
CoCrW Powder is one example of a rough alloy that can resist wear, corrosion, and oxidation at elevated temperatures. They are available in a variety of forms depending on their composition, including welding wires, powders to hard-surface substrates, spray and thermal spray. These alloys can be used to make castings and forgings as well as powder metallurgy pieces.
COCRW can be used for laser/electron-beam additive manufacturing (SLM/EBM), in powder metalurgy (PM), spraying or welding, and many other applications. It is used primarily for the 3D printing biomedical products, including teeth and artificial joints.
Cobalt Cr-W is a widely-used alloy in engine engines, marine engines, and other aircraft.
The casting and non-vacuum melting of early cobalt chromium -tungsten alloys was used. The vacuum smelting of boron or zirconium is used for later-developed alloys such as the MAR-509 alloy.
Generally, cobalt-chromium-tungsten alloy lacks a uniform strengthening phase. Its strength at low temperatures (only 50-75% compared to nickel-based alloy) is high. However, it also has good thermal fatigue resistance. It can be used for making nozzle guidevanes and guides vanes of aircraft jet engines, industrial gas turbines and naval gas turbines.
CoCrW Powder Storage Conditions:
CoCrW’s powder performance will suffer from damp reunion. Additionally, CoCrW should not be exposed to stress.
Shipping CoCrW Powder
Many types of packing are available depending on CoCrW’s powder amount.
CoCrW Powder Packaging:Vacuum Packing, 100g to 500g or 1kg/bag at 25kg/barrel. Or as you request.
CoCrW shipping: CoCrW can be shipped by sea, air or express as soon after payment receipt.
3D printing alloy CoCrW powder properties |
|
| Other names | Cobalt Chromium Tungsten, Cobalt 6B, Stellite 6B ,Co-Cr-W |
| N/A | |
| Compound Formula | CoCrW |
| Molecular Weight | N/A |
| Appearance | Different forms of gray metallic solid (ingot, tubing and pieces, powder, etc.) |
| Melting Point | N/A |
| Solubility In Water | N/A |
| Density | <4.2 g/cm3 |
| Purity | N/A |
| Particle Size | 0-20mm, 15-45mm, 15-53mm, 53-105mm, 53-150mm, 105-250mm |
| Boling Point | N/A |
| Specific Heat | N/A |
| Thermo Conductivity | N/A |
| Thermal Expansion | N/A |
| Young’s Module | N/A |
| Exact | 294.824632 g/mol |
| Monoisotopic | 294.824632 g/mol |
Safety & Health Info |
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| Safety Notice | N/A |
| Hazard Statements | N/A |
| Flashing Point | N/A |
| Hazard Codes | N/A |
| Risk Codes | N/A |
| Safety statements | N/A |
| RTECS # | N/A |
| Transport Information | N/A |
| WGK Germany | N/A |
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