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Advanced Sintering

Hot Isostatic Pressing (HIP)

Isotropic high-pressure densification eliminating internal porosity and defects.

What This Process Solves

Isotropic high-pressure densification eliminating internal porosity and defects.

Optimized design

Good uniformity

Fast heating

High pressure accuracy

High safety

Suitable Materials & Applications

Aerospace alloys

  • TC4, TC11, and TA15 titanium alloys
  • Inconel 718 and 625 superalloys

Advanced ceramics

  • Alumina, zirconia, silicon nitride, and transparent ceramics

Superhard tools

  • WC-Co cemented carbide
  • PCD
  • CBN

3D-printed parts

  • Titanium, stainless steel, and aluminum alloy additive-manufactured parts

Powder metallurgy alloys

  • Tungsten, molybdenum, and copper-based high-density alloys

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

I2CC20 Hot Isostatic Press

Advanced Sintering Technology Center / Laboratory-grade

Chamber size
Φ200×250 mm
Gas pressure
200 MPa
Heating element
Carbon-carbon
Ultimate vacuum
10 Pa
Maximum temperature
2000°C
Operating environment
High-purity argon, 800-2000°C, 100-200 MPa
Maximum load
50 kg

Request a Hot Isostatic Pressing (HIP) process review

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

Request Process Review
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