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Advanced Sintering

Vacuum/Atmosphere/Debinding Sintering

Integrated debinding and sintering in vacuum with excellent batch consistency.

What This Process Solves

Integrated debinding and sintering in vacuum with excellent batch consistency.

High stability

Good uniformity

Fast heating

High safety

Strong expandability

Suitable Materials & Applications

MIM metal injection molding alloys

  • 316L / 304 / 17-4PH stainless steel
  • Fe-Ni and Fe-Co magnetic alloys
  • Ti-6Al-4V
  • Inconel 718 / 625
  • W-Cu alloys

CIM ceramic injection molding

  • Al2O3, ZrO2, SiC, Si3N4, piezoelectric and dielectric ceramics

Cemented carbide and powder metallurgy

  • Ultra-fine WC-Co cemented carbide
  • Metal ceramics
  • High-speed steel

Carbon and new-energy materials

  • High-purity graphite
  • Carbon nanotubes
  • Graphene
  • Lithium battery electrode materials
  • Supercapacitor materials

Precious and refractory materials

  • Gold, silver, platinum, and palladium parts
  • Precision brass and bearing steel parts

Evaluation Boundary

Final feasibility depends on material composition, geometry, atmosphere window, thermal profile, target performance, and downstream testing requirements. For immature formulas or complex dissimilar joining, small-sample validation is recommended first.

Available Equipment & Parameters

V2GR20 Vacuum / Atmosphere / Debinding Furnace

Advanced Sintering Technology Center / Laboratory-grade

Chamber size
200×200×300 mm
Heating material
Isostatic graphite
Ultimate vacuum
6.7×10⁻³Pa
Maximum temperature
2000°C
Atmosphere
Argon / Nitrogen
Insulation material
Graphite felt

V2MS17 Vacuum / Atmosphere / Debinding Furnace

Advanced Sintering Technology Center / Laboratory-grade

Chamber size
200×200×300 mm
Heating material
Molybdenum disilicide
Ultimate vacuum
6.7×10⁻³Pa
Maximum temperature
1700°C
Atmosphere
Hydrogen / Argon / Nitrogen
Insulation material
Alumina fiber ceramic

Request a Vacuum/Atmosphere/Debinding Sintering process review

Share drawings, material grade, size, temperature window, and performance targets for first-pass engineering evaluation.

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