Our press equipment is categorized into two main systems: the Isostatic Press, a high-pressure system that achieves isostatic conditions through hydrostatic pressure, and the Hydraulic Press, which applies pressure in a single direction. To ensure maximum safety under high-pressure conditions, we implement designs that comply with all relevant safety regulations, including precision-engineered reaction vessels and advanced pressure safety devices. Furthermore, we offer a wide range of models designed for user convenience and cost-effectiveness, providing our customers with more diverse options.
Isostatic pressure
implementation using fluids
Hydrostatic-based
isostatic pressure control
Isostatic pressure control
utilizing hydraulic power
This equipment uses gas as a transfer medium to apply high temperature and high pressure below the material's melting point. It is primarily used for the high-density sintering of metal and ceramic powders, as well as the diffusion bonding of dissimilar metals. This versatile system is widely applied across the aerospace, energy, automotive, semiconductor, and medical industries.
This equipment performs compression and high-pressure treatment at target temperatures for products requiring material property control. By integrating previously separate Cold and Hot Lamination processes, it significantly enhances production efficiency. It is primarily applied in the lamination of electric and electronic materials, such as MLCC and LTCC.
Capable of molding various sizes and shapes using hydrostatic pressure at room temperature, this system is utilized for molding ceramics, metals, carbon, and powders. It is also widely applied in the manufacturing of high-performance insulators and functional components.
A hydraulic press equipped with thermal processing capabilities that apply load and heat simultaneously. It is widely used in metalworking and industrial component manufacturing, as well as in the production of electric/electronic parts and various inorganic material components
Capable of controlling loads up to approximately 30 tons using hydraulic power, this equipment is utilized in metalworking, electric/electronic components, circuit boards, and the synthesis and processing of polymer resins.
We design and manufacture high-performance pressure vessels in strict accordance with ASME standards. With KGS and ASME (U, U2, U3) certifications, we ensure the highest levels of safety and reliability for every unit.
Our in-house team designs and fabricates Hot Zones featuring specialized heaters and insulation (Cu, Mo). Through rigorous Thermal-Fluid Analysis, we guarantee stable and efficient operation even in extreme high-temperature environments.
From aerospace and energy to semiconductors and medical fields, our high-pressure gas processing systems are fully customizable. We provide optimized configurations based on material types, temperature requirements, and production scales.
We offer tailored electrical and control solutions for ISA-HIP systems. This includes custom-built Process Control Programs and User Interfaces (UI) specifically designed to match the unique characteristics of each process.
We optimize automatic control systems tailored to specific process conditions. By applying advanced techniques such as ON/OFF and PID control, we ensure stable and precise management of high-pressure environments.
To maximize operational efficiency and reduce costs, we design and manufacture high-efficiency Gas Recovery Systems, including specialized high-pressure storage vessels and tanks.
We design our pressure vessels in strict compliance with ASME standards. By passing rigorous domestic industrial and gas safety inspections, we ensure the highest levels of operational safety and reliability.
Our systems are engineered with contamination-minimal structures and airtight designs, ensuring seamless and optimized operation specifically for sensitive cleanroom environments.
We offer a broad range of configurations tailored to specific process goals and temperature requirements. Based on our ultra-high pressure technology, our solutions are applied across diverse industries, including ceramics, metal forming, electronic components, and food processing.
Designed with laboratory space efficiency in mind, our compact systems allow for easy installation and highly efficient operation, making them ideal for research and development environments.
Our systems are engineered to cover a wide pressure spectrum—from low to ultra-high pressure—ensuring stable and reliable performance for continuous, large-scale mass production lines.
Our systems support a wide range of load capacities, from 5 to 30 tons, with fully adjustable temperature control up to 250°C. The integrated Hand Pump system ensures stable and reliable pressure generation for every application.
Pressure is generated via a manual Hand Pump, while an automatic hydraulic control valve allows for ultra-fine adjustment of operating speeds. Additionally, a high-precision pressure gauge (±0.5% accuracy) ensures exact monitoring and control.
Equipped with high-thermal conductivity Hot Plates, our units reach target temperatures rapidly. The robust frame and durable components ensure long-term stability, while the auto-return mechanism and simplified design make operation and maintenance effortless. For a safer, better workspace, we have also integrated overheat protection and a low-vibration, low-noise architecture.
| Series | Hot zone dimensions | Temp. range | Pressure | Compressor |
|---|---|---|---|---|
| ISA-HIP 100 | Ф100 X 200 | ~ 1,500℃ | ~ 100MPa | Air booster / Hydraulic booster |
| ~ 2,000℃ | ~ 200MPa | |||
| ISA-HIP 200 | Ф200 X 300 | ~ 1,500℃ | ~ 100MPa | Hydraulic booster |
| ~ 2,000℃ | ~ 200MPa | |||
| ISA-HIP 300 | Ф300 X 600 | ~ 1,500℃ | ~ 100MPa | Hydraulic booster |
| ~ 2,000℃ | ~ 200MPa | |||
| ISA-HIP 600 | Ф600 X 1,200 | ~ 1,500℃ | ~ 100MPa | Hydraulic booster |
| ~ 2,000℃ | ~ 200MPa |
| Threaded Closure Type | Interrupted Threaded Closure Type | Yoke Closure Type | |
|---|---|---|---|
| Category | Laboratory | Lab/Mass Production | Mass Production |
| Schematic |  |
 |
 |
| Description | A vessel featuring a perfectly sealed structure, ideal for realizing a wide range of experimental conditions. | Designed for high-pressure applications; optimized for producing high volumes within a laboratory scale. | Features an automated opening/closing mechanism for large-scale operations; perfectly suited for industrial-scale mass production. |
| Others |
|
|
|
| Series | Volume (L) | Pressure (bar) | Pump | Temp. (℃) | Internal Diameter (Ф) |
|---|---|---|---|---|---|
| Laboratory | 0.29 ~ 0.77 | ~ 6,000 | Pin / Hydraulics | ~ 90 | 50 ~ 70 |
| Mass production | 1 ~ 550 | Intensifier | ~ 90 | 70 ~ 430 |
| C-Clamp Type | Thread Closing Type | Pin Closing Type | Yoke Frame Type | |
|---|---|---|---|---|
| Model | CIP / WIP | CIP / WIP | CIP / WIP / HPP | CIP / HPP |
| Schematic |  |
 |
 |
 |
| Description | Optimized for high-volume production at low pressure. | Optimized for high-volume production at high pressure. | Optimized for high-volume production at high pressure. | Optimized for high-volume production at ultra-high pressure. |
| Operating Pressure | < 1,000 bar | ~ 1,500 bar | ~ 4,000 bar | ~ 6,000 bar |
| Temperature | R.T. ~ 80℃ | R.T. ~ 130℃ | R.T. ~ 120℃ | ~ R.T. |
| Capacity | Custom | 100L / Custom | 100L / Custom | 200L / Custom |
| Others |
|
|
|
|
| Series | Volume (L) | Pressure (bar) | Pump | Closing Type | Temp. (℃) | Internal Diameter (Ф) |
|---|---|---|---|---|---|---|
| ISA - CIP 500 | 0.5 | ~ 6,000 | Air Drivedn | C-Clamp / Pin | RT | 50 ~ 100 |
| ISA - CIP 1000 | 1 | 70 ~ 100 | ||||
| ISA - CIP 2000 | 2 | 80 ~ 120 | ||||
| ISA - CIP 3000 | 3 | ~5,000 | 100 ~ 200 | |||
| Series | Volume (L) | Pressure (bar) | Pump | Closing Type | Temp. (℃) |
|---|---|---|---|---|---|
| CIP - C | ~ 2,000 | ~ 500 | Air Pump | C-Clamp | RT |
| CIP - P | ~ 100 | ~ 4,000 | Pin / Cover | ||
| CIP - Y | ~ 300 | ~ 6,000 | Hydraulic Pump | Yoke Frame | |
| CIP - Y | ~ 2,000 | ~ 3,000 |
| C-Clamp Type | Thread Closing Type | Pin Closing Type | Yoke Frame Type | |
|---|---|---|---|---|
| Model | CIP / WIP | CIP / WIP | CIP / WIP / HPP | CIP / HPP |
| Schematic | |
|
|
|
| Description | Optimized for high-volume production at low pressure. | Optimized for high-volume production at high pressure. | Optimized for high-volume production at high pressure. | Optimized for high-volume production at ultra-high pressure. |
| Operating Pressure | < ~ 1,000 bar | ~ 1,500 bar | ~ 4,000 bar | ~ 6,000 bar |
| Temperature | R. T. ~ 80℃ | R. T. ~ 130℃ | R. T. ~ 120℃ | ~ R. T. |
| Capacity | Custom | 100L / Custom | 100L / Custom | 200L / Custom |
| Others |
|
|
|
|
| Series | HP | WP |
|---|---|---|
| Plate Size | Custom-Made | |
| Max. Load (Ton) | ~ 30 | |
| Cylinder Type | Single-Acting Cylinder (Spring Return) / Double-Acting Cylinder | |
| Cylinder Stroke (mm) | Single-Acting, Double-Acting: < 300 (or Up to 300) | |
| Max. Pressure (kg/㎠) | Up to 500 (Effective Cylinder Area x Pressure) | |
| Max. Temp. (℃) | - | ~ 250 |
| Option |
|
|
Customer Support
042-931-6100A/S
042-602-8018
ⓒ Ilshinautoclave 2025, All RIGHTS RESERVED
