Product
ENERGYN HIP (Hot Isostatic Press)
The HIP equipment of Energyn is based on wire winding technology to enhance the safety and durability of the equipment. It overcomes the limits in the dimensions of the work zone so that it can serve the market where the demands for extra-large sizes are increasing. We provide optimal solutions to serve the needs of individual customers through our own control system and the gaskets that are applied to the gas pressurization system.
The characteristics of the HIP of Energyn
A hot isostatic press uses inert gases as the main pressurizing medium. This is because it is necessary to heat up the object to the maximum operating temperature of 2000℃, which is well beyond the evaporation temperature of the fluid. Even though this is a lower pressure level than those of cold or warm isostatic presses, the pores in the object are eliminated and the object can be processed closest to the theoretical compressible density of the target object. For this reason, this system is also called the ultimate extreme processing equipment. The gas porosity and defects that are commonly discovered in a casting process are eliminated, and hot tearing susceptibility is reduced while the fatigue behavior is improved. With a HIP process, the creep life span of the object is enhanced, while it becomes more resilient in the face of fatigue, with a higher level of toughness. In addition, the HIP is now expanding its scope of applications, from the traditional metallurgical applications to diffusion bonding, which serves as a follow-up process for 3D printing to complement its poor density; making it a viable option for meeting the demanding quality requirements of today.
PressureVessel
High-tensile-strength steel is tube-forged to make it safer. As welding is never done in any part, there is no concentration of stress.
Also, the inside and outside surfaces are hard-chrome-coated, to increase resistance against corrosion and make the surface tougher.
The cooling jacket is composed of stainless cylinders joined together with bolts, so that it can be disassembled.
Door, Clamp
The joining grooves in the joining mechanism further enhance safety, and the weight is reduced significantly to make it easier to handle and maintain.
The doors also do not include any welded parts and allow disassembly or cooling jackets.
Heater
The heater is easy to assemble/disassemble. Another heater is located at the bottom to further reduce temperature differences.
Temp.Measurement
A thermocouple and a pyrometer (in the case of a high-pressure application) are used. Especially we used a single-crystal rod to reduce the discrepancies in a pyrometer due to the turbulence of high-pressure gas.
Industrial areas
Powder forming
Space and aviation
Biomedicine
Improvement
3D Printing
EHIP
| Description | EHIP-LAB100 | EHIP-250 | EHIP-600 | EHIP-1000 | EHIP-1600 | Max | |
|---|---|---|---|---|---|---|---|
| Work Zone(mm) | Ф100 x 200L | Ф250 x 350L | Ф600 x 1500L | Ф1000 x 2000L | Ф1600 x 2100L | Ф2000 x 5000L | |
| Temperature(℃) | Mo | 1300 | 1300 | 1300 | 1300 | 1300 | 1300 |
| Graphite | 1800 | 1800 | 1800 | 1800 | 1450 | 2000 | |
| Pressure(MPa) | 145 | 145 | 145 | 145 | 1350 | 200 | |
| Ultimate Vacuum(Torr) | 5 x 10-5 | 5 x 10-5 | 5 x 10-5 | 5 x 10-5 | 5 x 10-5 | 5 x 10-6 | |
| Gas | Ar.N2 | Ar.N2 | Ar.N2 | Ar.N2 | Ar.N2 | Ar.N2 | |
※ As per standard models of Energyn. We can customize based on the work zone, pressure amount, vessel structure, dimensions, and other elements of the specification.
Production Capacity
| Pressure | 500~2000Bar |
|---|---|
| Max Temp. | ~2000℃ |
| Work Zone | ID ø60~1000mm |
| Height | 100~2500mm |
