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TECHNICAL PAPERS

Analytical Thermal Models of Oblique Moving Heat Source for Deep Grinding and Cutting

[+] Author and Article Information
T. Jin, G. Q. Cai

School of Mechanical Engineering and Automation, Northeastern University, Shenyang 110006, P. R. China

J. Manuf. Sci. Eng 123(2), 185-190 (Mar 01, 2000) (6 pages) doi:10.1115/1.1343458 History: Received February 01, 1999; Revised March 01, 2000
Copyright © 2001 by ASME
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References

Jaeger,  J. C., 1942, “Moving Sources of Heat and the Temperature at Sliding Contacts,” J. Proc. R. Soc. N. S. W., 76, pp. 456–464.
Des Ruisseaux,  N. R., and Zerkle,  R. D., 1970, “Thermal Analysis of the Grinding Process,” ASME J. Eng. Ind., 92, pp. 428–434.
Des Ruisseaux,  N. R., and Zerkle,  R. D., 1970, “Temperature in Semi-infinite and Cylindrical Bodies Subjected Moving Heat Sources and Surface Cooling,” ASME J. Heat Transfer, 92, pp. 456–464.
Malkin,  S., and Anderson,  R. B., 1974, “Thermal Aspects of Grinding: Part 1: Energy Partition,” “Part 2: Surface Temperature and Workpiece Burn,” ASME J. Eng. Ind., 96, pp. 1177–1191.
Guo,  C., and Malkin,  S., 1995, “Analysis of Energy Partition in Grinding,” ASME J. Eng. Ind., 117, pp. 55–61.
Lavine,  A. S., and Jen,  T. C., 1991a, “Thermal Aspects of Grinding: Heat Transfer to Workpiece, Wheel, and Fluid,” ASME J. Heat Transfer, 113, pp. 296–303.
Lavine,  A. S., and Jen,  T. C., 1991b, “Coupled Heat Transfer to Workpiece, Wheel, and Fluid in Grinding, and the Occurrence of Workpiece Burn: Heat Transfer,” Int. J. Heat Mass Transf., 34, pp. 983–992.
Jen,  T. C., and Lavine,  A. S., 1995, “A Variable Heat Flux Model of Heat Transfer in Grinding: Model Development,” ASME J. Heat Transfer, 117, pp. 473–478.
Jen,  T. C., and Lavine,  A. S., 1996, “A Variable Heat Flux Model of Heat Transfer in Grinding With Boiling,” ASME J. Heat Transfer, 118, pp. 463–470.
Loewen,  E. G., and Shaw,  M. C., 1954, “On the Analysis of Cutting Tool Temperatures,” Trans. ASME, 76, pp. 217–221.
Dawson,  P. R., and Malkin,  S., 1984, “Inclined Moving Heat Source Model for Calculating Metal Cutting Temperature,” ASME J. Eng. Ind., 106, pp. 179–186.
Rapier,  A. C., 1954, “A Theoretical Investigation of The Temperature Distribution In The Metal Cutting,” Br. J. Appl. Phys., 5, pp. 400–405.
Tay,  A. O., Stevenson,  M. G., and de Vahl Davis,  G., 1974, “Using the Finite Element Method to Determine Temperature Distribution in Orthogonal Machining,” Proc. Inst. Mech. Eng., 188, No. 55, pp. 627–638.
Ren, J. X., 1988, Grinding Principle, Press of Northeastern Polytechnic University (China).
Hou, Z. B., 1984, Heat Conduction in Solid, Press of Shanghai Science and Technology, Shanghai, China.
Kim,  N. K., Guo,  C., and Malkin,  S., 1997, “Heat Flux Distribution And Energy Partition In Creep-Feed Grinding,” Annals of the CIRP, 46, No. 1, pp. 227–232.
Tawakoli,  T., , 1992, “Hochleistungsschleifen (HEDG) von Inconel und anderen Werkstoffen” VDI-Z, Nr. 1-Januar, 134, pp. 48–57.
Lavine,  A. S., 1988, “A Simple Model for Convective Cooling During the Grinding Process,” ASME J. Eng. Ind., 110, pp. 1–6.

Figures

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Heat source and its movement of deep grinding
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One-dimensional uniform heat flux model
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One-dimensional triangular heat flux model
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Infinite moving line source in an infinite solid
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Two-dimensional uniform heat flux model
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Results of one-dimensional uniform heat flux model
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Results of one-dimensional triangular heat flux model
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Results of two-dimensional uniform heat flux model
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Maximum dimensionless surface temperature at the source plane of the models versus FE analysis
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Dimensionless surface temperature distribution at the heat source plane

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