INTRODUCTION TO THE ANALYSIS OF THE MECHANICS OF THE DIAMOND GRINDING PROCESS WITH THE ACCOUNT OF WEAR OF WHEEL GRAINS

• Main Authors: Feodor NOVIKOV, Vladimir POLYANSKY, Yury GUTSALENKO, Vladislav IVKIN
• Format: Article
• Language: English
• Published: Academica Brancusi 2017-12-01
• Series: Fiabilitate şi Durabilitate
• Subjects: mechanics; diamond grinding; tool characteristics; machining modes; cutting relief of wheel; wear of the wheel grains; maximum thickness of the cut.
• Online Access: http://www.utgjiu.ro/rev_mec/mecanica/pdf/2017-02/21_FEODOR%20NOVIKOV,%20VLADIMIR%20POLYANSKY,%20YURY%20GUTSALENKO,%20VLADISLAV%20IVKIN%20-%20INTRODUCTION%20TO%20THE%20ANALYSIS%20OF%20THE%20MECHANICS%20OF%20THE%20DIAMOND%20GRINDING%20PROCESS%20WITH%20THE%20ACCOUNT%20OF%20WEAR%20OF%20WHEEL%20GRAINS.pdf
• ISSN: 1844-640X; 1844-640X

The work is devoted to the theoretical analysis of the mechanics of the diamond grinding process, taking into account the wear of the wheel grains for scientifically based choice of optimal processing conditions. A multiplicative probabilistic approach to the generalization of the cutting profile of a diamond grinding wheel in its consideration in a state of some steady wear during processing is considered. This is achieved by working the wheel in a mode of properly established self-sharpening or with the use of effective dressing methods. In this case, the linear wear of individual grains of diamond abrasive located on the working surface of the grinding wheel and opened to mechanical contact with the material being processed is assumed to proportionally to the depth of the introduction of grain into it. The analytical dependence of the maximum thickness of the cut is presented, and the relationship between the maximum grain wear and the accepted universal relative characteristic of the steady wear with the operational parameters of the tool and the grinding mode is shown. The obtained results can be used in the development of analytical models of processing productivity and microgeometric engineering of the treated surface, new approaches to increasing the efficiency of diamond grinding. The research is based on modern technical possibilities of controlling the state of the cutting relief of diamond-abrasive tools, especially in electro-physical-mechanical grinding technologies, for example, using the diamond-spark method developed at the Kharkov Polytechnic Institute.