THE QUALITATIVE ANALYSIS OF SPECIAL ASPECTS OF WEAR AND DESTRUCTION OF TOOLS DURING THE ULTRASONIC BURNISHING OF THE MACHINE PARTS


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Abstract

Under the conditions of the necessity of introduction of the advanced production technologies to match the solutions being developed, the principles of industry 4.0 require the development of the elements for the automation of technological processes including forecasting. Understanding the mechanisms of tool wear and special aspects of its destruction during the ultrasonic strengthening treatment by burnishing will allow developing the principles of forecasting of the tool operational life and optimizing the costs for support of technological processes. The paper considers the special aspects of wear and destruction of a tool during the ultrasonic burnishing of machine parts. It is found that during the ultrasonic treatment, along with the tool wear, such effects as tool plastic deformation, solder destruction and the loss of a working insert, the destruction of a threaded joint in the ultrasonic concentrator are observed. During the analysis of the results of the performed microscopic studies, the authors determined the dynamics of step-by-step deformation of tool material, the further development of defects during the processing up to the critical dimensions. The position of main points of origin of the burnishing tool wear is determined as well. The authors considered the principal differences in the development of foci of wear during the ultrasonic burnishing, carried out the analysis of graphic materials obtained during the processing with ultrasonic burnishing, and determined the nature of defects of a tool working section. The assumption about the influence of cavitation of the lubricating-cooling technological medium layer or oil films remaining on the surface of a detail on the emerging defects of a burnishing tool is made.

About the authors

A. S. Selivanov

Togliatti State University

Author for correspondence.
Email: selivas@inbox.ru

Selivanov Aleksandr Sergeevich - PhD (Engineering), Associate Professor, Director of the Institute of Mechanical Engineering.
445020, Togliatti, Belorusskaya Street, 14. Tel.: (8482) 53-91-20

Russian Federation

A. A. Balakhnina

Togliatti State University

Email: a.balakhnina@tltsu.ru

Balakhnina Anna Aleksandrovna - senior lecturer of Chair “Nanotechnologies, Materials Science and Mechanics”.
445020, Togliatti, Belorusskaya Street, 14. Tel.: (8482) 53-91-20

Russian Federation

I. V. Soroka

Togliatti State University

Email: soroka@tltsu.ru

Soroka Irina Valerievna - senior lecturer of Chair “Nanotechnologies, Materials Science and Mechanics”.
445020, Togliatti, Belorusskaya Street, 14. Tel.: (8482) 53-91-20

Russian Federation

References

  1. Grigoriev S.N., Bobrovskij N.M., Bobrovskij I.N., Melnikov P.A., Lukyanov A.A. Environmental Aspects of the Green Surface Plastic Deformation Technology of Car Parts. IOP Conference Series: Earth and Environmental Science, 2017, vol. 50, no. 1, p. 012015.
  2. Brailovskii M.I., Voskoboinik A.G., D'yakonov A.A., Shmidt I.V. Optimal materials for the manufacture of metal-cutting machines. Russian Engineering Research, 2016, vol. 36, no. 10, pp. 846-850.
  3. Pratap A., Patra K., Dyakonov A.A. Manufacturing Miniature Products by Micro-grinding: A Review. Procedia Engineering, 2016, vol. 150, pp. 969-974.
  4. Taskaev S., Skokov K., Khovaylo V., Karpenkov D., Ulyanov M., Bataev D., Dyakonov A., Gutfleisch O. Effects of severe plastic deformation on the magnetic properties of terbium. AIP Advances, 2018, vol. 8, no. 4, p. 048103.
  5. Popova M.A., Kuznetsov V.P., Lesnikov V.P., Popov N.A., Konakova I.P. The structure and mechanical properties of single-crystal nickel alloys with Re and Ru after high-temperature holds. Materials Science and Engineering A, 2015, vol. 642, pp. 304-308.
  6. Pratap A., Sahoo P., Patra K., Dyakonov A.A. Experimental Study of Tool Wear and Grinding Forces during BK-7 Glass Micro-grinding with Modified PCD Tool. IOP Conference Series: Materials Science and Engineering, 2017, vol. 229, no. 1, p. 012033.
  7. Kiselev E.S., Kovalnogov V.N., Stepcheva Z.V. Using the ultrasonic fluctuations in combined process of grinding and diamond smoothing. Uprochnyayushchie tekhnologii i pokrytiya, 2007, no. 8, pp. 43-53.
  8. Malyshev V.I., Levashkin D.G., Selivanov A.S. Hybrid and combined technologies automation are based on CNC-machine equipment modernization and kinematical connections choice. Vektor nauki Tolyattin-skogo gosudarstvennogo universiteta, 2010, no. 3, pp. 70-74.
  9. Kuznetsov V.P., Makarov A.V., Psakhie S.G., Savrai R.A., Malygina I.Y., Davydova N.A. Tribological aspects in nanostructuring burnishing of structural steels. Physical Mesomechanics, 2014, vol. 17, no. 4, pp. 250-264.
  10. Papshev D.D. Otdelochno-uprochnyayushchaya obrabotka poverkhnostno-plasticheskim deformirovaniem [Finishing and hardening treatment by surface-plastic deformation]. Moscow, Mashinostroenie Publ., 1978. 152 p.
  11. Bobrovskij N.M., Melnikov P.A., Grigoriev S.N., Bobrovskij I.N. Aspects of thermal field by wide burnishing. IOP Conference Series: Materials Science and Engineering, 2015, vol. 91, no. 1, p. 012035.
  12. Tabakov V.P., Chikhranov A.V. Stress state of wearresistant tool coatings. Russian Engineering Research, 2016, vol. 36, no. 6, pp. 454-460.
  13. Tabakov V.P. Crack resistance of tool coatings in continuous cutting. Russian Engineering Research, 2012, vol. 32, no. 5-6, pp. 464-468.
  14. Tabakov V., Chikhranov A., Sizov S. Increasing of the carbide cutting tool life by developing the multilayer coatings. MATEC Web of Conferences, 2017, vol. 129, p. 01038.
  15. Grigoriev S.N., Bobrovskij N.M., Melnikov P.A., Bobrovskij I.N. Research of Tool Durability in Surface Plastic Deformation Processing by Burnishing of Steel Without Metalworking Fluids. IOP Conference Series: Earth and Environmental Science, 2017, vol. 66, no. 1, p. 012013.
  16. Kuznetsov V.P., Skorobogatov A.S., Gorgots V.G., Yurovskikh A.S. The analysis of speed increase perspectives of nanostructuring burnishing with heat removal from the tool. IOP Conference Series: Materials Science and Engineering, 2016, vol. 124, no. 1, p. 012127.
  17. Kuznetsov V.P., Tarasov S.Y., Nikonov A.Y., Filippov A.V., Voropaev V.V., Dmitriev A.I. Effect of adhesion transfer on the surface pattern regularity in nanostructuring burnishing. AIP Conference Proceedings, 2016, vol. 1783, p. 020128.
  18. Tabakov V.P., Vereschaka A.S., Vereschaka A.A. Multilayer composition coatings for cutting tools: Formation and performance properties. Mechanics and Industry, 2017, vol. 18, no. 7, p. 706.
  19. Vereschaka A.A., Vereschaka A.S., Grigoriev S.N., Sladkov D.V. Nano-scale multi-layered coatings for cutting tools generated using assisted filtered cathodic-vacuum-arc deposition (AFCVAD). Applied Mechanics and Materials, 2013, vol. 327, pp. 1454-1459.
  20. Bobrovskij N.M., Melnikov P.A., Grigoriev S.N., Bobrovskij I.N. Simulation of thermal fields using different types of wide burnishing. IOP Conference Series: Materials Science and Engineering, 2015, vol. 91, no. 1, p. 012034.

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