Spherical Stainless Steel Powder 4140 Description
Spherical Stainless Steel Powder 4140 is a nitrogen gas atomized, good flowable, and spreadable spherical powder for additive manufacturing. A medium carbon structural steel can be hardened and tempered.
Spherical Stainless Steel Powder 4140 Specifications
Standard Chemical Composition (wt%)
|
Cr
|
1.0
|
C
|
0.4
|
Mn
|
0.8
|
O
|
0.06
|
Mo
|
0.2
|
N
|
0.08
|
Si
|
0.3
|
Fe
|
Bal.
|
Purity
|
99%
|
Compositions
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Fe, Mn, Cr
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Shape
|
Spherical Powder
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Particle Size
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15-45μm, 20-63μm, 45-105μm, 50-150μm
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Spherical Stainless Steel Powder 4140 Applications
Spherical Stainless Steel Powder 4140 is used to manufacture high-grade cold-worked parts in general engineering and automotive
Spherical Stainless Steel Powder 4140 Packaging
Our Spherical Stainless Steel Powder 4140 is carefully handled during storage and transportation to preserve the quality of our product in its original condition.
Spherical Stainless Steel Powder FAQs
1. What is Spherical Stainless Steel Powder?
Spherical Stainless Steel Powder is a fine metallic powder composed of stainless steel particles with a spherical shape. It is commonly used in additive manufacturing, powder metallurgy, coatings, and other industrial applications.
2. How is Spherical Stainless Steel Powder produced?
It is typically manufactured using gas atomization or plasma atomization, which ensures a uniform spherical shape and high purity.
3. What are the advantages of Spherical Stainless Steel Powder?
Excellent Flowability: The spherical shape enhances flow characteristics, making it ideal for 3D printing and powder metallurgy.
High Packing Density: Improves sintering and consolidation efficiency.
Superior Corrosion Resistance: Inherits the corrosion-resistant properties of stainless steel. Good Mechanical Strength: Suitable for applications requiring high wear and impact resistance.
4. What are the common applications of Spherical Stainless Steel Powder?
Additive Manufacturing (3D Printing): Used in industries such as aerospace, automotive, and medical.
Powder Metallurgy: Helps create high-performance components.
Thermal Spraying & Coatings: Provides wear and corrosion resistance.
Metal Injection Molding (MIM): Enables the production of intricate parts with high precision