Fully Automatic Programmable Metallographic Cutter

Product features:

The fully automatic programmable metallographic cutter solves the pain point of low efficiency and inconsistent cutting quality caused by manual operation in mass sample preparation. Its dual-mode cutting design supports automatic batch cutting and manual debugging, adapting to different sample types and processing needs. The programmable storage function can store 10 sets of customized cutting parameters, ensuring that each batch of samples has consistent cutting depth and position, eliminating human error. The IP55 protection grade prevents dust and water splashing, making it suitable for harsh industrial workshop environments. The adjustable feeding speed range can adapt to materials of different hardness, from soft plastic materials to hard alloy materials. Additionally, the equipped emergency stop button and safety interlocking device further improve the operational safety of the equipment.

Product specifications:

The key specifications of this fully automatic metallographic cutter include a maximum cutting diameter of 180mm, a standard blade size of 250mm, and a 1.5kW high-power motor that provides stable power output for high-load cutting. The feeding speed can be adjusted steplessly between 0.1-5mm/s, meeting the needs of different sample thicknesses. The workbench measures 350mm × 300mm, with a pneumatic sample fixing device that can quickly fix samples of various sizes. The power supply supports both 220V and 380V voltage, suitable for different industrial power configurations. The protection grade reaches IP55, and the blade speed can be adjusted between 0-3000 RPM. The net weight of the whole machine is 120kg, and the overall dimensions are 1000mm × 800mm × 1100mm, which is suitable for fixed placement in professional testing workshops.

Product application:

This fully automatic programmable metallographic cutter is mainly applicable to automotive part quality inspection, aerospace material testing, large-scale metallurgical enterprises and professional material testing institutions. It is suitable for mass preparation of metallographic samples of various metal and non-metal materials, including steel, aluminum alloy, copper alloy, composite materials and engineering plastics. Typical application scenarios include batch cutting of automotive engine parts for metallographic analysis, cutting of large-scale steel samples for quality inspection, and preparation of samples for non-destructive testing. It can greatly improve the efficiency of sample preparation and reduce the labor intensity of operators, meeting the high-volume testing needs of modern industrial production.