MSE PRO 100T Split Type Electrical Cold Isostatic Press (CIP) with 50mm ID Vessel and Safety Shield
SKU: PR0391
MSE PRO™ 100T Split Type Electrical Cold Isostatic Press (CIP) with 50mm ID Vessel and Safety Shield
Cold isostatic pressing (CIP) is a method of compacting powdered materials into a solid homogeneous mass before machining or sintering. Cold isostatic pressing, in which the powder is subjected to equal pressure from all directions, followed by machining, is also in general use for wear and metal forming tools. It is commonly used for parts that are too large to be pressed in uniaxial presses and that do not require high precision in the sintered state. Sometimes referred to as hydrostatic pressing, it is a very simple process capable of producing high-integrity billets or preforms that exhibit little distortion or cracking when fired.
Compared with manual CIP, this electrical CIP press has better pressure accuracy and is suitable for large tonnage.
At MSE Supplies, we are experts at powder processing materials, ball milling equipment and accessories. We offer a variety of ball mill and jars to break down the particle size before the pressing.
If you need other maximum pressure or customized design, please contact MSE Supplies.
Specification:Product SKU # | PR0391 |
Pressure Range | 0-100 Tons |
Piston Diameter | 200 mm |
Max. Isostatic Pressure | 300 Mpa |
Pressurization Process | Program pressurization - Program holding - Timed pressure release |
Pressure Holding Time | ≥1s (no time limited) |
Display | 7” LCD Screen |
Sample Vessel ID | 60 mm |
Max. Sample Size | 60 mm Dia. x 150 mm |
Max. Piston Stroke | 50 mm |
Safety Shield Material | Plexiglass |
Dimensions |
850 x 500 x 1100 mm
|
Net Weight | 580 kg |
Voltage | 110 V 60 Hz |
Power | 1500 W |
Warranty | Limited one year warranty, not responsible for the damage caused by improper use. |
Note | Please clean the press after each use to ensure the best performance and longer lifetime. |
Reference:
1. Cold Isostatic Pressing, K.J. Morris, in Concise Encyclopedia of Advanced Ceramic Materials, 1991