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Increasing the Wear Resistance of the Diamond Burnishing by Applying a Wear Resistant Nanocoating | IEEE Conference Publication | IEEE Xplore

Increasing the Wear Resistance of the Diamond Burnishing by Applying a Wear Resistant Nanocoating


Abstract:

The article is devoted to 3D modeling of the stress-strain state of the soldering zone of tool material in the burnishing body. For the first time, a wide range of tool m...Show More

Abstract:

The article is devoted to 3D modeling of the stress-strain state of the soldering zone of tool material in the burnishing body. For the first time, a wide range of tool materials is used for research, which can be used for the practical implementation of the burnishing processes of various groups of materials. The use of a thin-walled nanocoating by the CVD method is proposed for brazing diamond tools.
Date of Conference: 09-13 November 2020
Date Added to IEEE Xplore: 06 January 2021
ISBN Information:
Conference Location: Sumy, Ukraine

I. Introduction

It is known that due to the use of burnishing equipped with synthetic diamonds, it is possible to provide a significant increase in the productivity of processing critical surfaces of parts [1–5]. Basically, the burnishing tool is made of diamond, which has significant advantages when processing non-ferrous metals and alloys, but is far from always suitable for processing steels and alloys with a high content of carbon and iron. These are due to the fact that diamond, as an allotropic modification of carbon, can enter into a chemical reaction with these processed materials, and, therefore, undergo increased wear.

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References

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