On the temperature and residual stress field during grinding

Please enable javascript in your browser.

H-Gangaraj, S. M ; Sharif University of Technology

874 Viewed

Type of Document: Article
Abstract:
Grinding is widely used for manufacturing of components that require fine surface finish and good dimensional accuracy. In this study a thermo-mechanical finite element analysis is conducted to find out how grinding parameters can affect temperature and residual stress distribution in the workpiece. Results of parametric study presented in this work indicate, by carefully selecting the grinding parameters, minimum thermal and mechanical damage can be achieved. Higher workpiece velocities produce higher surface residual stress. By increasing depths of cut, depth of tensile residual stresses increases. Convection heat coefficient does not have any considerable effect on surface residual stress
Keywords:
Grinding ; Residual stress ; Temperature field ; Dimensional accuracy ; Finite Element ; Grinding parameters ; Heat coefficients ; Mechanical damages ; Parametric study ; Residual stress fields ; Surface finishes ; Surface residual stress ; Tensile residual stress ; Thermo-mechanical ; Work pieces ; Workpiece velocity ; Finite element method ; Grinding (comminution) ; Grinding (machining) ; Heat convection ; Manufacture ; Stress concentration ; Residual stresses
Source: WCE 2010 - World Congress on Engineering 2010, 30 June 2010 through 2 July 2010 ; Volume 2 , 2010 , Pages 1196-1200 ; 9789881821072 (ISBN)