Tribological aspect in the technological quality assurance of ceramic parts

It was established that the parameters of the grinding mode of Al2O3--TiC-ceramics significantly affect their tribological characteristics, the intensification of the regime leads to an increase in the tangential force and friction coefficient, the width of the friction track and the width of the wear area. Using the identified interrelations, technological recommendations for rationing the quality of ceramic parts at the design stage, which increase the operational reliability of ceramic products, have been developed.

Al2O3--TiC-ceramics, grinding mode, morphology, surface, tribological characteristics,

1. Adachi, K. Wear map of ceramics / K. Adachi, K. Kato, N. Chen // Wear. ― 1997. ― Vol. 203/204. ― P. 291‒301.

2. Kato, K. Tribology of ceramics / K. Kato // Wear. ― 1990. ― Vol. 136. ― P. 117‒133.

3. Wang, Yushu. Wear and wear transition mechanisms of ceramics / Yushu Wang, Stephen M. Hsu // Wear. ― 1996. ― Vol. 195. ― P. 112‒122.

4. Kato, Koji. Wear of advanced ceramics / Koji Kato, Koshi Adachi // Wear. ― 2002. ― Vol. 253. ― P. 1097‒1104.

5. Sullivan, J. L. Microtribological studies of two-phase Al2O3‒TiC ceramic at low contact pressure / J. L. Sullivan, Baogui Shi, S. O. Saied // Tribology International. ― 2006. ― Vol. 38. ― P. 987‒994.

6. Кузин, В. В. Особенности изнашивания и разрушения керамических режущих пластин / В. В. Кузин, В. Н. Аникин, С. Ю. Федоров [и др.] // Вестник машиностроения. ― 2010. ― № 11. ― С. 50‒56. Kuzin, V. V. Wear and failure of ceramic cutting plates / V. V. Kuzin, V. N. Anikin, S. Yu. Fedorov [et al.] // Russian Engineering Research. ― 2010. ― Vol. 30, № 11. ― Р. 1116‒1123.

7. Волосова, М. А. Закономерности изнашивания режущих пластин из оксидной и нитридной керамики / М. А. Волосова, В. В. Кузин // Металловедение и термическая обработка. ― 2012. ― № 1. ― С. 40‒46. Volosova, M. A. Regular features of wear of cutting plates from oxide and nitride ceramics / M. A. Volosova, V. V. Kuzin // Metal Science and Heat Treatment. ― 2012. ― Vol. 54, № 1/2. ― Р. 41‒46.

8. Kitajima, K. Study on mechanism of ceramics grinding / K. Kitajima, G. О. Cai, N. Kurnagai [et al.] // Annals of the CIRP. ― 1992. ― Vol. 14. ― P. 367‒371.

9. Tanovic, L. Mechanisms in oxide-carbide ceramic ВОК60 grinding / L. Tanovic, P. Bojanic, M. Popovic // International Journal of Advanced Manufacturing Technology. ― 2011. ― Vol. 58. ― P. 9‒12.

10. Huang, Н. Experimental investigations of machining characteristics and removal mechanisms of advanced ceramics in high speed deep grinding / H. Huang, Y. C. Liu // Machine Tools & Manufacture. ― 2003. ― Vol. 43. ― P. 811‒823.

11. Кузин, В. В. Взаимосвязь режимов алмазного шлифования с состоянием поверхности Al2O3‒TiC-керамики / В. В. Кузин, С. Ю. Фёдоров // Новые огнеупоры. ― 2016. ― № 9. ― С. 63‒68. Kuzin, V. V. Correlation of diamond grinding regimes with Al2O3‒TiC-ceramic surface condition / V. V. Kuzin, S. Yu. Fedorov // Refract. Ind. Ceram. ― 2017. ― Vol. 57, № 5. ― P. 520‒525.

12. Кузин, В. В. Закономерности формирования морфологии кромок образцов Al2O3‒TiC-керамики при алмазном шлифовании / В. В. Кузин, С. Ю. Фёдоров, С. Н. Григорьев // Новые огнеупоры. ― 2017. ― № 5. ― С. 63‒67. Kuzin, V. V. Features of Al2O3‒TiC-ceramic specimen edge morphology formation during diamond grinding / V. V. Kuzin, S. Yu. Fedorov, S. N. Grigor’ev // Refract. Ind. Ceram. ― 2017. ― Vol. 58, № 3. ― Р. 319‒323.

13. Кузин, В. В. Влияние режимов алмазного шлифования на трибологические характеристики керамики на основе оксида алюминия / В. В. Кузин, С. Ю. Фёдоров, А. Е. Селезнев // Трение и износ. ― 2016. ― Т. 37, № 4. ― С. 475‒481. Kuzin, V. V. Effect of conditions of diamond grinding on tribological behavior of alumina-based ceramics / V. V. Kuzin, S. Yu. Fedorov, A. E. Seleznev // Journal of Friction and Wear. ― 2016. ― Vol. 37, № 4. ―Р. 371‒376.