PEM 3.1 SX
PEM 3.1 SX is a precision electrolytic machining (PEM) system produced by PEM Technologies, a company specializing in the development and manufacture of advanced electrochemical machining systems. The PEM 3.1 SX is a high-precision, multi-axis machining system that is capable of machining a wide range of materials, including hard and brittle materials such as ceramics, glass, and tungsten carbide.
Overall, the PEM 3.1 SX is a highly advanced and versatile PEM system that is designed for precision machining of a wide range of materials. Its advanced features and user-friendly interface make it an ideal option for applications that require high-precision machining and complex geometries.
TECHNICAL DATA
- Machining accuracy:
The PEM 3.1 SX is capable of achieving sub-micron accuracy, with a positioning accuracy of ±0.001 mm and a surface finish of Ra 0.1 μm. - Workpiece dimensions:
The system can accommodate workpieces with dimensions up to 300 mm x 300 mm x 200 mm. - Axis configuration:The PEM 3.1 SX is a 4-axis system, with X, Y, Z, and C axes.
- Workpiece weight:
The maximum workpiece weight that the system can handle is 50 kg. - Electrolyte control:
The system features precise control of the electrolyte flow rate, temperature, and concentration, which allows for consistent and high-quality machining results. - Adaptive machining:
The system is equipped with adaptive machining technology, which allows it to adjust machining parameters in real-time based on changes in the workpiece material or thickness. - Cooling system:
The system is equipped with an efficient cooling system that allows for continuous operation without overheating. - Materials:
The PEM 3.1 SX can machine a wide range of materials, including hard and brittle materials such as ceramics, glass, and tungsten carbide, as well as metals such as titanium, stainless steel, and aluminum.
CONTROL UNIT
The input and control is via a touch screen operator interface developed by PEM Terchnologies. PEM CONTROL enables the customer to analyze the process online and evaluate the process.