1
Department of Engineering, Birjand university, Birjand, Iran
2
Professor of Mechanical Engineering, Hochschule Furtwangen University, Tuttlingen, Germany
Abstract
The Single grit scratch test is one of the first experiments for the fundamental recognition of the behavior of the material and the mechanism of chip formation under the grinding process. In this Test, a grit as an agent of the grinding wheel, is involved with the workpiece. The interpretation of its results makes a significant contribution to the understanding of the grinding behavior of this material, and the mechanism of cutting. Polyether ether ketone has been considered for its unique mechanical and chemical properties in aerospace and medical engineering. One of its applications is the construction of implants in the medical industry. In this study, the effect of uncut chip thickness has been studied on the mechanism of chip formation of the Polyether ether ketone. Several tests were carried out at different depths (starting from 1 μm) and different cutting speed (5, 10 and 15 m/s). By increasing the cutting speed, a higher specific energy is required and the amount of energy at a maximum depth would be 2.5 j/mm3.
Khoran, M., & Azarhoushang, B. (2020). Investigation of machining behavior of Polyether Ether Ketone in Single grit scratch test. Iranian Journal of Manufacturing Engineering, 6(9), 54-62.
MLA
Mohammad Khoran; Bahman Azarhoushang. "Investigation of machining behavior of Polyether Ether Ketone in Single grit scratch test". Iranian Journal of Manufacturing Engineering, 6, 9, 2020, 54-62.
HARVARD
Khoran, M., Azarhoushang, B. (2020). 'Investigation of machining behavior of Polyether Ether Ketone in Single grit scratch test', Iranian Journal of Manufacturing Engineering, 6(9), pp. 54-62.
VANCOUVER
Khoran, M., Azarhoushang, B. Investigation of machining behavior of Polyether Ether Ketone in Single grit scratch test. Iranian Journal of Manufacturing Engineering, 2020; 6(9): 54-62.
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