Precision Finishing Metallographic Polisher

Product features:

The core advantage of this precision finishing metallographic polisher lies in its ultra-high precision control system, which can realize micro-pressure control in the range of 0-20N, avoiding the damage of the sample surface caused by excessive pressure. The rotational speed range is 100-3000rpm, which can meet the needs of ultra-fine polishing of different materials. The ultrapure water recirculating cooling system can realize ultrapure cooling, avoiding the introduction of impurities into the sample and ensuring the cleanliness of the sample. The equipment supports touch screen control and PC remote control, which can realize real-time monitoring and adjustment of polishing parameters, and the whole machine adopts a precision shock-absorbing base to reduce the operation vibration and ensure the stability of the sample preparation process. It is also equipped with a replaceable diamond polishing disc, which can meet the polishing needs of ultra-hard materials such as ceramics and single crystal materials.

Product specifications:

The polishing disc diameter is 200mm, the rotational speed adjustment range is 100-3000rpm stepless adjustable, the rated power is 1.1kW, the power supply specification is 220V 50/60Hz single-phase AC power, the net weight of the whole machine is 45kg, the overall dimensions are 650mm (length) × 500mm (width) × 850mm (height), the ultrapure water cooling system flow rate is 5L/min, the applicable sample diameter range is φ10mm to φ50mm, the pressing force range is 0-20N micro-pressure adjustable, the operation interface is 7-inch touch screen and PC remote control, the programmable storage parameters can be up to 100 groups, the noise level is ≤58dB(A), and it is standard equipped with a ultrapure water filter device and anti-slip precision shock-absorbing base.

Product application:

It is mainly applicable to nanoscale metallographic sample preparation of universities and scientific research institutes, high-end failure analysis of precision mechanical parts, performance testing of electronic materials, and research and development of advanced materials. It can meet the testing requirements of ultra-high surface finish, such as sample preparation of single crystal materials, sample preparation of semiconductor materials, and failure analysis of precision bearings. It can also be used for research and development of new materials, providing high-precision metallographic sample preparation solutions for academic research and product development.