Abstract
Grinding performance largely depends on the durability of the abrasive tool. Developed and tested solid lubricant for impregnating the working surface of the grinding wheel, which increases its cutting ability and, as a result, reduces the number of edits. Reducing the need for frequent revisions of the abrasive tool reduces dust generation in the workshop and helps to prevent the occupational disease of the grinder - pneumoconiosis. It is established that the depth of cut when grinding according to an elastic scheme depends not only on the coefficient of grinding and the coefficient of friction, but on the magnitude of their difference.
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References
Izmerov, N.F., Shifman, B.B., Artamonova, V.G., et al.: A new study on field lung disease caused by silicate dust medical and environmental problems of workers. Bull. Sci. Counc. 1, 26 (2003)
Poteryaeva, E.L., Ivashchenko, I.E., Logvinenko, I.N., Nesina, I.A., Erzin, D.A., Permina, I.I.: Evaluation of the effectiveness of aerosol therapy in the rehabilitation programs for patients with occupational diseases of the broncho-pulmonary apparatus. In: Occupational Medicine and Industrial Ecology, Moscow, no. 4, pp. 25–27 (2007)
Ivashchenko, I.E., Poteryaeva, E.L., Nesina, N.A.: Assessment of the quality of life of patients with occupational pathology of the bronchopulmonary apparatus in the dynamics of treatment and rehabilitation programs in therapy. In: Modern Aspects of Restorative Medicine. Materials II Scientific Conference of Doctors, Novosibirsk, p. 27 (2007)
Yakimov, A.A.: Technological basis for ensuring the quality of the surface layer when grinding gear wheels, p. 456. Odessa, Astroprint (2003)
Zhukov, N.P., Maynikova, N.F., Chudrilin, A.V.: Increasing the life of the abrasive tool by modifying the impregnating composition. In: Problems of Energy and Resource Saving: Collection of Scientific, Proceedings, pp. 219–227. SSTU, Saratov (2010)
Chirikov, G.V.: Effect of grinding wheel impregnation on the quality of processing, no. 2, pp. 22–23. Mechanical Engineering Technology (2007)
Krumnev, G.P., Naddachin, V.B., Sokolov, V.F.: Expansion of technological capabilities of grinding wheels by impregnating their surface or volume. Inf. Technol. Educ. Product. 3(8), 160–165 (2015)
Yusupov, G.Kh., Koleiv, S.A.: The influence of physico-chemical phenomena on the relationship of abrasive grains with the processed material during the cutting process. Intellectual Systems in Production, no. 1, pp. 206–209 (2010)
Morozov, A.V., Mitrofanov, A.P.: Impact of impregnation on the durability of abrasive tools and the quality of the machined surface when grinding bearing rings. In: Problems of Tukhniki and Technology (Technology 2011): Colloquium of XIV International Scientific and Technical Conference (Orel, 5–7 okm. 2011), pp. 40–43. Technological Institute, N.N. Polikarpova Federal State Budgetary Educational Institution of Higher Professional Education “State University UNPK”, Orel (2011)
Stepanov, E.V.: Impregnation of abrasive wheels. Young Sci. 10, 206–209 (2013)
Feng, B.F., Su, H.L., Zhang, Q.Z., Zheng, L., Gai, Q.F., Cai, G.Q.: Grinding and energy in high speed. Grinding for quenched steel. In: Key Engineering Materials, vol. 416, pp. 504–508 (2009)
Xiv, S.C., Geng, Z.J., Xiu, P.B.: Experimental study on point grinding technical parameters affecting coolant jet parameters. In: Key Engineering Materials, vol. 416, pp. 13–17 (2009)
Nikitin, A.V.: Grinding of difficult-to-work materials with impregnated circles as a way to increase their cutting properties. Tools Technol. 2, 52–58 (2010)
Nosenko, V.A., Mitrofanov, A.A.: Research and application of azodicarbonamide for impregnating abrasive tools. In: Latysheva, V.N. (ed.) Physics, Chemistry and Mechanics of Tribosystems: Interuniversity Collection of Scientific Papers, no. 9, pp. 145–150. Ivan. State University, Ivanovo (2010)
Nosenko, V.A., Mitrofanov, A.P., Butov, G.M.: Study of the use of impregnators from the class of porophores for the impregnation of abrasive tools, no. 8, pp. 35–40. STIN (2011)
Stepanov, A.V., Vetkasov, N.N.: Simulation of the thermal stress of flat grinding with the use of a solid lubricant with fillers of nanomaterials and highly dispersed materials, no. 5(184), pp. 85–90. News of the Volgograd State Technical University (2016)
Vettsov, N.N., Stepanov, A.V., Sapunov, V.: Improving the quality of the surface layer of polished blanks by applying solid lubricant pencils with fillers of ultrafine natural and nanomaterials. In: Nauklemkie Technologies in Mechanical Engineering and Aeronautical Engineering: Proceedings of the IV International Scientific and Technical Conference in 2 Parts, RGATU them. P.A. Solovyov, Rybinsk, 4. II, pp. 59–62 (2012)
Nosenko, V.F., Mitrofanv, A.P., Butov, G.M.: Impregnation of abrasive tools with foaming agents. Russ. Eng. Res. 31(11), 1160–1163 (2011)
Zelentsova, L.V., Denisov, A.V.: To the question about the influence of the SOTS on the process of defect formation in round external grinding. In: Proceedings of the IV All-Russian Conference-Seminar “Scientific and Technical Creativity: Problems and Prospects”, Syzran, 22 May 2009, pp. 13–18. Sam Publishing House, Samara, State Tech. un-that. (2009)
Vekatov, N.N., Stepanov, A.V.: Calculation of surface roughness, polished using solid lubricants, no. 3–1 (33-1), pp. 36–41. Vector of Science at TSU (2015)
Yakimov, A.A., Vinnikova, V.I.: Lubricant for mechanical processing of materials. Patent 9586 Ukraine, C10M133; No. 93111448; declare 31.13.92, Bul# 1. – 4p (1999)
Vektasov, N.N., Stepanov, A.V., Sapunov, V.V.: Improving the efficiency of flat grinding by applying pencils of solid lubricant with nanomaterial fillers. In: Drozorov, A.V. (ed.) Youth and Science of the XXI Century: Proceedings of the III International Scientific Practical Conference, 23–26 November 2010, pp. 128–131. State Agricultural Academy, Ulyanovsk (2010)
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Tonkonogyi, V., Sidelnykova, T., Dašić, P., Yakimov, A., Bovnegra, L. (2020). Improving the Performance Properties of Abrasive Tools at the Stage of Their Operation. In: Karabegović, I. (eds) New Technologies, Development and Application II. NT 2019. Lecture Notes in Networks and Systems, vol 76. Springer, Cham. https://doi.org/10.1007/978-3-030-18072-0_15
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