Used EDWARDS E2M2 #9220922 for sale

EDWARDS E2M2
Manufacturer
EDWARDS
Model
E2M2
ID: 9220922
Pump.
EDWARDS E2M2 is a chemical vapor deposition (CVD) pump that is capable of achieving high levels of vacuum in a range of applications from industrial processes to research and development. It is a two-stage rotary vane pump featuring a lubricated valved and baffled design with a direct drive motor. This makes it ideal for rapid, efficient and continuous pumping of the tough applications commonly encountered in the semiconductor, metal finishing, and microelectronics industries. EDWARDS E 2 M 2 pump is built to offer superior performance, reliability and durability with a rotating speed of up to 2400 rpm. It features a chamber capacity of 50 liters and a free air-displacement of 30 cubic meters per hour. The pump also uses a unique design that allows it to achieve high levels of air tightness and vacuum, even with low-viscosity gases such as hydrogen. E2M2 pump is a dual-stage pump, meaning that it has two impellers and two mechanical seal stages. This allows it to achieve very high levels of vacuum quickly and efficiently. The two stages mean that it can operate with both rotary and stationary motion to provide a high level of velocity for pumping. This is especially beneficial when dealing with tough solvents, corrosive chemicals, and other hazardous materials. The pump also features a built-in filter to ensure that any gases passed through the system are as clean as possible. This helps to ensure that the pump has a long service life and performs optimally throughout its lifetime. E 2 M 2 is designed for easy assembly and maintenance, with minimal downtime. EDWARDS E2M2 pump is a powerful and reliable pump for any application requiring a high level of vacuum. Its two-stage design, direct drive motor and ease of assembly and maintenance make it an ideal choice for industrial processes, research and development, and microelectronics. Thanks to its stable operation and durability, EDWARDS E 2 M 2 can be relied on to achieve maximum efficiency in difficult atmospheres and testing conditions.
There are no reviews yet