Research Article
Year 2021,
Volume: 2 Issue: 1, 20 - 24, 15.06.2021
Abstract
The article discusses the process of diamond honing of conical holes. The purpose of the article is to identify the dependence of power in the process of cutting and the effect of changing the contact areas of the components of the cutting forces. The experiments were carried out on a developed installation to determine the cutting ability of diamond honing stones. Depen- dences of linear removal of steel 50 and steel 45 on the applied pressure have been established. Based on the data obtained, it can be concluded that if the value of the Py index goes beyond the limits of pure contact, then this leads to the seizure of surfaces and a deterioration in the quality of processing.
Keywords
References
- [1] Tsukizoe, T., & Hisakado, T. (1968). On the mechanism of contact between metal surfaces. Transactions of the American Society of Mechanical Engineers, 2, 81-88.
- [2] Dyakonov, A.A. (2016). Abrasive-tool wear and the machinability of high-speed tungsten-free steels. Russian Engineering Research, 36, 67–70.
- [3] Ardashev, D. (2015). Mathematic Model of the Blunting Area of an Abrasive Grain in Grinding Processes with Account of Different Wear Mechanisms. Procedia Engineering, 129, 500–504.
- [4] Krishnan, R.K., & Vettivel, S.C. (2014). Effect of parameters on grinding forces and energy while grinding Al (A356)/SiC composites. Tribology - Materials Surfaces & Interfaces, 8(4), 235-240.
- [5] Palanisamy, C.h., Kok, C.H.K., & Vijayaram, T.R. (2013). Surface Roughness Prediction Model for Grinding of Composite Laminate Using Factorial Design. International Journal of Mechanical, Industrial Science and Engineering, 7(4), 166–170.
- [6] Kozlov, A.M., Ambrosimov, S.K. & Kozlov, A.A. (2021). Modeling Abrasive Grain Interaction with Machined Surface. Proceedings of the 6th International Conference on Industrial Engineering (ICIE 2020), 953-960.
- [7] Shepelev, I., Kryukov, S., & Baidakova, N. (2019). Effect of the Grain Shape on Abrasive Tool Performance. MATEC Web of Conferences, 297, 09004.
- [8] Muratov, K.R., Gashev, E.A., Ablyaz, T.R., & Sidhu, S.S. (2021). Formation of the roughness during honing with raster kinematics of the tool. Materials Today: Proceedings, 38(940), 1484-1487.
- [9] Voronov, S.A. (2008). Effect of dynamics on the process of formation of holes during honing. Journal of Machinery Manufacture and Reliability, 37(3), 270-277.
- [10] Gourab Saha, M.E. (2017). Abrasive wear of alloys for ground engaging tools. PhD Thesis. Deakin University, Institute for Frontier Materials, Melburn. .
Year 2021,
Volume: 2 Issue: 1, 20 - 24, 15.06.2021
Abstract
References
- [1] Tsukizoe, T., & Hisakado, T. (1968). On the mechanism of contact between metal surfaces. Transactions of the American Society of Mechanical Engineers, 2, 81-88.
- [2] Dyakonov, A.A. (2016). Abrasive-tool wear and the machinability of high-speed tungsten-free steels. Russian Engineering Research, 36, 67–70.
- [3] Ardashev, D. (2015). Mathematic Model of the Blunting Area of an Abrasive Grain in Grinding Processes with Account of Different Wear Mechanisms. Procedia Engineering, 129, 500–504.
- [4] Krishnan, R.K., & Vettivel, S.C. (2014). Effect of parameters on grinding forces and energy while grinding Al (A356)/SiC composites. Tribology - Materials Surfaces & Interfaces, 8(4), 235-240.
- [5] Palanisamy, C.h., Kok, C.H.K., & Vijayaram, T.R. (2013). Surface Roughness Prediction Model for Grinding of Composite Laminate Using Factorial Design. International Journal of Mechanical, Industrial Science and Engineering, 7(4), 166–170.
- [6] Kozlov, A.M., Ambrosimov, S.K. & Kozlov, A.A. (2021). Modeling Abrasive Grain Interaction with Machined Surface. Proceedings of the 6th International Conference on Industrial Engineering (ICIE 2020), 953-960.
- [7] Shepelev, I., Kryukov, S., & Baidakova, N. (2019). Effect of the Grain Shape on Abrasive Tool Performance. MATEC Web of Conferences, 297, 09004.
- [8] Muratov, K.R., Gashev, E.A., Ablyaz, T.R., & Sidhu, S.S. (2021). Formation of the roughness during honing with raster kinematics of the tool. Materials Today: Proceedings, 38(940), 1484-1487.
- [9] Voronov, S.A. (2008). Effect of dynamics on the process of formation of holes during honing. Journal of Machinery Manufacture and Reliability, 37(3), 270-277.
- [10] Gourab Saha, M.E. (2017). Abrasive wear of alloys for ground engaging tools. PhD Thesis. Deakin University, Institute for Frontier Materials, Melburn. .
There are 10 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Manufacturing and Industrial Engineering |
| Journal Section | Research Articles |
| Authors | |
| Publication Date | June 15, 2021 |
| Published in Issue | Year 2021 Volume: 2 Issue: 1 |
