Using the Finite Element Method to Determine Temperature Distributions in Orthogonal Machining
- 1 June 1974
- journal article
- other
- Published by SAGE Publications in Proceedings of the Institution of Mechanical Engineers
- Vol. 188 (1), 627-638
- https://doi.org/10.1243/pime_proc_1974_188_074_02
Abstract
Temperature distributions for typical cases of orthogonal machining with a continuous chip were obtained numerically by solving the steady two-dimensional energy equation using the finite element method. The distribution of heat sources in both the primary and secondary zones was calculated from the strain-rate and flow stress distributions. Strain, strain-rate and velocity distributions were calculated from deformed grid patterns obtained from quick-stop experiments. Flow stress was considered as a function of strain, strain-rate and temperature. The chip, workpiece and tool (actual shape and size) were treated as one system and material properties such as density, specific heat and thermal conductivity were considered as functions of temperature.Keywords
This publication has 10 references indexed in Scilit:
- High Temperature Stress-Strain Properties of a Low-Carbon Steel from Hot Machining TestsProceedings of the Institution of Mechanical Engineers, 1973
- Application of the finite element method to convection heat transfer between parallel planesInternational Journal of Heat and Mass Transfer, 1971
- An Experimental Investigation of the Influence of Strain-Rate and Temperature on the Flow Stress Properties of a Low Carbon Steel Using a Machining TestProceedings of the Institution of Mechanical Engineers, 1970
- An Experimental Investigation of the Influence of Speed and Scale on the Strain-Rate in a Zone of Intense Plastic DeformationProceedings of the Institution of Mechanical Engineers, 1969
- On the temperature distribution in orthogonal machiningInternational Journal of Machine Tool Design and Research, 1967
- ON THE THEORETICAL DETERMINATION OF THE TEMPERATURE FIELD IN ORTHOGONAL MACHININGInternational Journal of Production Research, 1965
- Temperatures in Orthogonal Metal CuttingProceedings of the Institution of Mechanical Engineers, 1963
- Shear-Plane Temperature Distribution in Orthogonal CuttingJournal of Fluids Engineering, 1955
- A theoretical investigation of the temperature distribution in the metal cutting processBritish Journal of Applied Physics, 1954
- Thermal Contact Resistance of Laminated and Machined JointsJournal of Fluids Engineering, 1949