Paper Titles

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Forecasting of Machined Surface Waviness on the Basis of Self-Oscillations Analysis
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 788Contact Processes in Grinding

Contact Processes in Grinding

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Abstract:

The relevance of investigating the problem of loading a diamond abrasive tool with a metallic binder to improve the efficiency of finishing treatment of a wide range of high-strength materials is addressed in the paper. The results of theoretical and experimental studies of the formation of a greasy layer on the surface of diamond wheels in the treatment of high-strength materials are shown. In the theoretical part it is proposed to consider this phenomenon in terms of the equilibrium state of electrochemical potentials at the interface of a diamond wheel and the treated surface. Dependences are revealed that help to determine greasy layer values. The practical part of this work consists in electron-microscopic, spectroscopic and X-ray diffraction studies of wheel specimens with a metallic binder in diamond grinding. Based on the results obtained the composition and structure of a greasy layer are determined. A comparison of the experimental data with the calculated values confirms the adequacy of the proposed theory. The use of combined methods to improve the efficiency of machining high-strength materials is recommended. It can help to reduce the intensity of loading and to improve the cutting properties of diamond abrasive tools with a metallic binder

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Periodical:

Applied Mechanics and Materials (Volume 788)

Pages:

17-21

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.788.17

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Online since:

August 2015

Authors:

Alexander Yanyushkin*, D.V. Lobanov, Pavel V. Arkhipov, Vladimir Ivancivsky

Keywords:

Carbide Materials, Contact Processes, Diamond Processing, Grinding, Loading, Metallic Bond

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© 2015 Trans Tech Publications Ltd. All Rights Reserved

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* - Corresponding Author

[1] E.V. Vasilyev, A.Y. Popov, D.S. Rechenko, Diamond grinding of hard-alloy plates, Russian engineering research. 11-12 (2012) 730-732.

DOI: 10.3103/s1068798x12110214

[2] Y.I. Soler, D.Y. Kazimirov, Selecting abrasive wheels for the plane grinding of airplane parts on the basis of surface roughness, Russian engineering research. 3 (2010) 251-261.

DOI: 10.3103/s1068798x10030111

[3] P.V. Arkhipov, A.S. Yanyushkin, D.V. Lobanov, S.I. Petrushin, The effect of diamond tool performance capability on the quality of processed surface, Applied Mechanics and Materials. 379 (2013) 124-130.

DOI: 10.4028/www.scientific.net/amm.379.124

[4] N. Plotnikova, A. Losinskaya, V. Skeeba, E. Nikitenko, Perspective of high energy heating implementation for steel surface saturation with carbon, Applied Mechanics and Materials. 698 (2015) 351-354.

DOI: 10.4028/www.scientific.net/amm.698.351

[5] V. Skeeba, V. Ivancivsky, V. Pushnin, Numerical modeling of steel surface hardening in the process of high energy heating by high frequency currents, Applied Mechanics and Materials. 698 (2015) 288-293.

DOI: 10.4028/www.scientific.net/amm.698.288

[6] V.V. Ivancivsky, V. Yu. Skeeba, V.N. Pushnin, Methods of appointment processing conditions when combining the operations of abrasive grinding and surface induction hardening, Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) (in Russian) 53 (2011).

[7] V.K. Jain, Abrasive-based nano-finishing techniques: An overview. 12 (3) (2008) 257-294.

[8] E. Brinksmeier, Y. Mutlugünes, F. Klocke, J.C. Aurich, P. Shore, H. Ohmori, Ultra-precision grinding, CIRP Annals - Manufacturing Technology. 59 (2) (2010) 652-671.

DOI: 10.1016/j.cirp.2010.05.001

[9] W. Gan, H. Chu, H. Xu, B. Xu, Research on NC electrochemical mechanical machining carbide alloy, 16th International Symposium on Electromachining. (2010) 379-383.

[10] M. Nistoran Botis, Electrochemical discharge grinding of chrome alloyed steels in inorganic solutions. 657 (2014) 201-205.

DOI: 10.4028/www.scientific.net/amm.657.201

[11] H.M. Rakhimyanov, V.V. Yanpolskiy, D.B. Krasilnikov, D.I. Chekmenev, Research of the reasons reduced the performance of abrasive tools for grinding tempered steels, Mechanics XXI century. 10 (2011) 86-88.

[12] A.S. Yanyushkin, Technology of electro-diamond sharpening of cutting tools and methods of its realization, Stary Oskol, (2013).

[13] P.V. Arkhipov, A.V. Balykov, A.A. Deacons, O.J. Yerenkov, V.P. Ivanov, E.G. Kalita, A.B. Lipatova, D.V. Lobanov, O.I. Medvedeva, A.V. Morozova, I.V. Schmidt, A.S. Yanyushkin, Effective technologies of mechanical machining of non-metallic materials, Moscow, (2014).

[14] A.S. Yanyushkin, P.V. Arlhipov, V.A. Toropov, Mechanism of the process loading grinding wheels, Messenger of machine industry. 3 (2009) 62-69.

[15] A.S. Yanyushkin, P.V. Arlhipov, Atomic-molecular processes in the area of the diamond wheel and the processed material, Technology of metals. 1 (2010) 25-33.