Analytical Modeling of Workpiece Surface Temperature Rise in Machining

Zhi Yi Miao; Shi Xian Yuan

doi:10.4028/www.scientific.net/AMR.97-101.1832

Paper Titles

Effects of Tool Geometry and Workpiece Hardness on Surface Roughness in Finish Hard Turning of AISI 440C
p.1815

Transient Dynamic Analysis of the Matching of Lengthened Shrink-Fit Holder and Cutter in High-Speed Milling
p.1819

Cutting Mechanism of Multi-Tooth Tool for Manufacturing Metal Fibers
p.1823

Performance Evaluation of Minimum Quantity Cooling Lubrication Using CBN Grinding Wheel
p.1827

Analytical Modeling of Workpiece Surface Temperature Rise in Machining
p.1832

Theoretical Analysis and Experimental Investigation into Hydrodynamic Pressure and Coolant Lift Force in Flood Delivery Grinding
p.1836

Research on Surface Machining System for Light Metal Thin-Walled Parts Based on Spherical Coordinate
p.1841

Research on Wear Mechanisms while Turning Titanium Alloy TC4
p.1845

Study on the Stability of High-Speed Milling of Thin-Walled Workpiece
p.1849

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 97-101Analytical Modeling of Workpiece Surface...

Analytical Modeling of Workpiece Surface Temperature Rise in Machining

Abstract:

In this paper, an analytical model is developed for prediction of temperature rise on workpiece surface during machining and orthogonal cutting is studied. The shear heat source created in the primary zone and the friction heat source on the tool-workpiece interface determine the workpiece temperature. The proposed model is verified with FEM simulation and experimental measurements of temperature on AISI4340 in the literature. With the analytical model presented here, substantial reduction in computational time is achieved in the predictions of machining workpiece temperature rise.

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Periodical:

Advanced Materials Research (Volumes 97-101)

Pages:

1832-1835

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.97-101.1832

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Online since:

March 2010

Authors:

Zhi Yi Miao, Shi Xian Yuan

Keywords:

Analytical Model, Metal Machining, Moving Heat Source, Workpiece Temperature Rise

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