316L Stainless Steel Powder for MIM

​Metal injection molding is a new type of powder metallurgy molding technology formed. Compared with traditional processes, MIM has the characteristics of high precision, uniform structure, excellent performance and low production cost, and it is widely used.

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Product Description

Metal injection molding is a new type of powder metallurgy molding technology formed. Compared with traditional processes, MIM has the characteristics of high precision, uniform structure, excellent performance and low production cost, and it is widely used. Used in electronic information engineering, biomedical equipment, office equipment, automobiles, machinery, aerospace, etc.

Stainless steel powder is one of the most used material for MIM. At the same time, it has good high temperature strength performance and excellent work hardening (weak magnetic properties after processing). It can be widely used in electronic information engineering, biomedical equipment, office equipment, automobiles, machinery, aerospace, etc.

Product Specification

Component Cr Ni Mo Si Mn C
Standard % 16-18 10-14 2-3 ≤1 ≤2 ≤0.03
Test% 16.43 10.48 2.61 0.36 0.67 0.013
Component P S O Fe
Standard % / / / Bal.
Test% 0.006 0.004 0.068 Bal.

 

Product Properties

  1. Appearance: Grey spherical or nearly spherical powder
  2. Tapping Density: 4.91g/m3
  3. Apparent density: 3.64g/m3
  4. Size: -500mesh
  5. PSD:D10=4.605μm, D50=12.16μm, D90=24.45μm

Characteristics:

  1. High Sphericity & high flowability;
  2. Low oxygen content. The Oxygen content is 300-800PPM;
  3. Narrow Particle Size Distribution.
Size (um)
Tapping Density (g/cm³)
PSD (um)
D10 D50 D90
D50:13um >4.8 4-5 12.5-13.5 24-27
D50:12um >4.8 3.5-4.5 11.5-12.5 22-26
D50:11um >4.8 3-4.5 10.5-11.5 20-22

Note: Other MIM powders are available upon any customer’s requirements

Stainless Steel Powder

Alloy
Norminal Composition
Remark
C Si Cr Ni Mn Mo Cu W V Fe
316L ≤0.03 ≤1.00 16.0~18.0 10.0~14.0 ≤2.00 2.0~3.0 Bal.
304L ≤0.03 ≤1.00 18.0~20.0 8.0~12.0 ≤2.00 Bal.
17-4PH ≤0.07 ≤1.00 15.0-17.5 3.0~5.0 ≤1.00 3.00-5.00 Bal. NB:0.15~0.45
HK30 0.25~0.35 ≤1.50 24.0~26.0 19.0~22.0 ≤2.00 ≤0.5 Bal.
4340 0.38~0.43 0.15~0.35 0.7~0.9 1.65~2.00 0.6~0.8 0.2~0.3 Bal.
430 ≤0.12 ≤0.75 16.0~18.0 ≤1.00 Bal.
440C 0.95~1.25 ≤1.00 16.0~18.0 ≤1.00 Bal.
440CN 0.95~1.25 ≤1.00 16.0~18.0 ≤1.00 ≤0.5 Bal.
420J1 0.16~0.25 ≤1.00 12.0-14.0 ≤0.6 ≤1.00 Bal.
420J2 0.30~0.40 ≤1.00 12.0-14.0 ≤0.6 ≤1.00 Bal.
S136 0.20~0.45 0.8~1.0 12.0-14.0 ≤1.00 0.15~0.40 Bal.
D2 1.40~1.60 ≤0.4 11.0~13.0 ≤0.6 0.8~1.2 0.2~0.5 Bal.
H11 0.32-0.45 0.6-1 4.7-5.2 0.2-0.5 0.8-1.2 0.2-0.6 Bal.
H13 0.32-0.45 0.8-1.2 4.75-5.5 0.2-0.5 1.1-1.5 0.8-1.2 Bal.
M2 0.78~0.88 0.2-0.45 3.75-4.5 0.15-0.4 4.5-5.5 5.5-6.75 1.75-2.2 Bal.
M4 1.25~1.40 0.2-0.45 3.75-4.5 0.15-0.4 4.5-5.5 5.25~6.5 3.75~4.5 Bal.
T15 1.4-1.6 0.15-0.4 3.75-5 0.15-0.4 11.75-13 4.5-5.25 Bal. Co:4.75~5.25

 

Application

  1. Injection molding(MIM)
  2. 3D Printing
  3. Powder metallurgy(PM)
  4. Spraying coating(SP) etc.

 

PREP System

AM Powder

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Applications

How we play a role in the industry

HIP Technology

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 Technology

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 Technology

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.

EBM Technology

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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