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High Purity 3D Printing Nickel-based Alloy IN738 Powder | Lemondedudroit

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In738, nickel-based, metal powder, is used extensively in industry and aviation turbines.

About 3D Printing Nickel-based Alloy IN738 Powder: Nickel-based Alloy IN738 is oxidation, low expansion, nickel-cobalt-ferrite, aluminum, chromium and niobium addition. For gap control and accommodating components like rings, housings and seals that are used in compressors, turbines and exhaust systems, the alloy is of great interest to aircraft gas turbine designers as well as material engineers.

In-738 is an alloy that can be vacuum smelted and vacuum cast. The alloy has excellent resistance to high temperatures, corrosion, and higher than most low chromium-content high-strength alloys. The alloy’s unique design makes it ideal for gas turbine industries. It can tolerate long exposure to engine-related high temperature court environments and has creep strength to 1800 * F. In738 alloy has an excellent and long-lasting performance that is comparable with 713c. It also offers significantly better resistance to vulcanization.
IN738 Alloy is typically made by vacuum fuse casting, vacuum homogenization and other high-temperature nickel alloy processes. The typical metal overheating exceeds the liquid phase line temperature 1500 to 1800 at 200 to 400 degrees F. The condition of each part will depend on its size and how it is made. Send an inquiry for the most current price if 3D Printing Nickel-based Alloy In738 Powder is what you need.

3D Printing Nickel-based superalloy in738 powder

Composition(percentage by mass)

Ni

Cr

Co

Ti

Al

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

C

Fe

Zr

B

O

1.00-2.00

0.50-1.50

<=0.15

<=0.10

<=0.10

<=0.15

<=0.01

Specifications and grades of alloys

The alloy number

Superalloy in738 powder made of nickel

The particle size

15-45mm, 15-53mm, 53-120mm, 53-150mm

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 nickel-based alloy IN738 Pulp produced?
This is the specific step in the production of the chromium-nickel-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 chromiumoxid generates a start temperature 1373 K. The reaction temperatures for the formation of C7C3 are 1403 and 1403 respectively. The starting temperature for the formation of CR23C6 (1448K) is the same.
Iron-element reduction works by the fact that the starting temperature for the iron oxide reduction reaction reacts at a lower temperature than 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.

Application of 3D-Printing Nickel-based Alloy IN738 Pulp :
In-738 alloy is a high-quality combination of corrosion resistance and high heat creep. It’s better than high-strength super gold but with lower amounts of 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).
The IN-738 alloy’s cutting performance compares well to high-temperature, high-strength and nickel-based alloys. In-738 Alloy is processed and grinded.
IN-738 is an alloy designed to increase the casting performance of larger cross-sectional dimensions.
In-738 alloy can be used in engine components of industrial gas turbines. They must resist high temperatures and thermal stresses, corrosion and sulfidation. It is used mostly for components of jet engines, including leaves, blades, and integral wheel.

Nickel-based Alloy In738 Powder Storage Conditions:
Damp reunion can affect the In738 powder’s dispersion and use effects. Nickel-based alloys IN738 and IN738 should therefore be stored in vacuum packaging and in a cool dry place. The nickel-based alloys IN738 and IN738 cannot be air-exposed. Additionally, IN738 should not be exposed to extreme stress.

Shipping and Packing of Nickel-based Alloy In738 Powder:
Many types of packing are available depending on the IN738 nickel powder amount.
In738 powder packaging: Nickel-based alloy, 100g to 500g or 1kg/bag at 25kg/barrel. Or as requested.
Powder shipping of nickel-based alloy In738 could be done by sea, air or express as soon after receipt payment.


In738 Powder Properties

Other Titles Alloy IN-738/IN738, IN-738C/738C, 738C/738CL
N/A
Compound Formula Ni Cr Al Fe Mo
Molecular Weight N/A
Appearance Gray powder to black powder
Melting Point 1230-1315
Boiling Point N/A
Density 8.11 g/cm3
Solubility of H2O N/A
Specific Heat 0.10 Btu/lb/deg F (70 deg F)
Poisson’s Rate N/A
Tensile strength 159000 psi (70 degF)
Thermo Conductivity 82 Btu/ft2/in/hr/degF (400 degF)
Thermal Expansion 6.45×10 -6 (70-200 degF)
Vickers Hardness N/A
Young’s Module N/A

In738 Pulp Health & Safety Information

Signal word Danger
Hazard Statements H317-H351-H372
Hazard Codes Xn
Risk Codes N/A
Safety statements N/A
Transport Information NONH on all transport modes

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