Cr
Co
Ti
Mo
Ta
Bal
14.0-16.0
8.0-9.0
2.50-4.00
2.50-1-4.00
1.00-2.00
1.00-2.00
Ta
NB
Fe
zr
B
O
1.00-2.00
0.50-1.50
<=0.15
<=0.10
<=0.10
<=0.15
<=0.01
Alloys and properties
Alloy #:
Nickel-based superalloy In738 powder
Particle Size:
15-45μm, 15-53μm, 53-120μm, 53-150μm
Morphology:
Spherical
Appearance:
Gray
Package:
Aluminum bag, Vacuum packing
Application:
3D Printing Metal Powder
Other Applications:
powder metallurgy(PM), injection molding(MIM), spray painting(SP) etc.
How 3D Printer Nickel-based Alloy IN738 Pulver Produced? This is the specific step in the production of the chromium, nickel and iron alloy. The melting temperature of the iron ore is between 1920 and 1980K. Melting the elements found in these ores is done at very high temperatures. The speed is increased. Carbon reduction of chromiumoxid generates a start temperature 1373K. The reaction temperature for the formation of C7C3 is 1403K. The start temperature is 1448k. Iron-element reduction works by the fact that the starting temperature for the iron oxide reduction reaction reacts at a lower temperature than that of the CR2O3 reduce reaction. It is simpler to reduce chromium because it is in a mug together. Also, the nickel mine’s chromium content is further reduced to chromium ferr. Use of IN738 Powder for 3D Printing Nickel Based Alloy IN738 – In-738 alloy is a high-quality combination of corrosion resistance and high heat creep. It’s better than high strength supergold with lower chromium. Inconel-738 is a nickel-based alloy, which can be vacuum cast or precipitated hardened to provide excellent mechanical properties. It has a temperature of 1800 ° F (982 ° C). In general the IN-738 alloy’s cutting performance compares to high temperature and high strength nickel-based alloys. In-738 Alloy is processed and grinded. IN-738 alloy was developed for casting large cross-sectional dimensions. In-738 alloy can be used in engine components of industrial gas turbines. They must resist high temperatures and thermal stress, corrosion and sulfidation. It is used mostly for components of jet engines, including leaves, blades, integral wheels, and gas turbines. Nickel-based Alloy IN738 Pulp: Damp reunion can affect the In738 powder’s dispersion and use effects. Nickel-based alloy IN738 should therefore be stored in vacuum packaging and in a cool dry place. The nickel-based alloyIN738 cannot be placed in direct sunlight. Additionally, IN738 should not be exposed to extreme stress. Shipping and Packing of Nickel-based Alloy In738 Powder: The IN738 nickel-based alloy powder amount will determine the type of packing we offer. In738 powder packaging: Nickel-based alloy, 100g to 500g, 1kg/bag and 25kg/barrel. Or as requested. Powder shipping of nickel-based alloy In738 could be done by sea or by air once payment has been received.Powder Properties
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