Hot Isostatic Pressing (HIP) furnaces are at the forefront of a manufacturing revolution. By combining high temperature and pressure, HIP technology transforms materials, leading to superior products across various industries.
Key Benefits of HIP
- Improved Material Properties:
HIP enhances mechanical properties such as tensile strength, fatigue resistance, and toughness by densifying materials and eliminating internal voids.
- Enhanced Uniformity:
The isostatic pressure ensures uniform treatment of the material, resulting in consistent quality and performance.
- Extended Component Life:
Components treated with HIP demonstrate prolonged service life due to their superior structural integrity and resistance to wear and tear.
- Design Flexibility:
HIP allows for complex shapes and intricate designs, opening new avenues for innovative engineering solutions.
HIP furnaces are employed across various industries, including aerospace, automotive, medical, and energy sectors. The latest advancements in HIP technology are pushing the boundaries of what is possible in material science:
- Additive Manufacturing:
Combining HIP with 3D printing techniques to produce near-net-shape components with superior mechanical properties.
- Advanced Control Systems:
Enhanced monitoring and control systems for precise temperature and pressure regulation, ensuring optimal material treatment.
The future of Hot Isostatic Pressing is bright, with continuous innovations and expanding applications. Researchers and engineers are exploring new materials and hybrid processes that will further enhance the capabilities and efficiency of HIP technology. As industries continue to demand higher performance and more reliable components, HIP will remain a cornerstone of modern manufacturing.
Compact HIP furnace for researching a new generation of materials at a low cost
Compact High Pressure Gas Tube Furnace (HIP) – OTF-1200X-S-HP-30A
- Heating Zone Length : 200 mm (single zone)
- Ni-based superalloy tube vessel : 30 mm OD x 12 mm ID x 560 mm Length
- Working Temperature vs Pressure : max. 800 °C under max. 20 MPa ; max. 900 °C under max. 12 MPa ; max. 1000 °C under max. 6 MPa ; max. 1100 °C under max. 4 MPa
- Max. Heating Rate : ≤ 10 °C/min
- Temperature control accuracy : ± 1 °C
- Compatible with Ultra-highly oxidizing or inert gas atmosphere : O2 and inert gasses such as N2, Ar and He
High-vacuum and high-pressure furnace
with a maximum temperature of 800 °C
particularly for the heat treatment of high-pressure oxygen environment superconducting materials (ex : YBCO (Yttrium Barium Copper Oxide))
High Vacuum & High Pressure Chamber Furnace – GSL-800-L
- 310S stainless steel chamber : 720 mm Ф x 900 mm deep (Cleanliness level : up to Class 100)
- Max. Working Temperature : 800 °C (In a Flowing Atmosphere/Vacuum State)
- Max. Heating Rate : ≤ 5 °C/min
- Temperature control accuracy : ± 5 °C
- Vacuum Level : 110-3 torr by mechanical pump, 110-5 torr by turbomolecular pump
- Max. Working Pressure : max. 750 °C under max. 0,25 MPa ; max. 500 °C under max. 0,35 MPa
- 1 channel mass flow meter with flow rate max. 5 L/min