REFERENCES
- Blok , H. ( 1938 ) Theoretical study of temperature rise at surfaces of actual contact under oiliness lubricating conditions. Proceedings of General Discussion on Lubrication and Lubricants, Institute of Mechanical Engineers London , pp. 222 – 235 .
- Boothroyd , G. ; Knight , W.A. ( 1989 ) Fundamentals of Machining and Machine Tool, , 2nd edition , Marcel Dekker Inc. , New York .
- Carlsaw , H.S. ; Jaeger , J.C. ( 1959 ) Conduction of Heat in Solids, , 2nd edition , Oxford University Press , Oxford , UK .
- Crisfield , M.A. ( 1997 ) Non-linear Finite Element Analysis of Solids and Structures , Vol. 2 , Advanced Topics . John Wiley , Chichester .
- Hahn , R.S. ( 1951 ) On the temperature developed at the shear plane in the metal cutting process. Proceedings of the First U.S. National Congress of Applied Mechanics , pp. 661 – 666 .
- Huang , Y. ; Liang , S.Y. ( 2003 ) Cutting temperature modeling based on non-uniform heat intensity and partition ratio . Machining Science and Technology , 9 ( 3 ): 301 – 323 .
- Kalhori , V. ( 2001 ) Modelling and Simulation of Mechanical Cutting , Luleå Technical University, Doctoral thesis: 28, ISSN: 1402–1544 .
- Kalhori , V. ; Lundblad , M. ; Lindgren , L.-E. ( 1997 ) Numerical and experimental analysis of orthogonal metal cutting . Transactions of the ASME, International Mechanical Engineering Congress & Exposition , MED Vol. 6–2, Manufacturing Science and Engineering, Dallas, Texas 16–21 Nov. 1997 .
- Karpat , Y. ; Özel , T. ( 2006a ) Predictive analytical and thermal modeling of orthogonal cutting process. Part I: Predictions of tool forces, stresses and temperature distributions . ASME Journal of Manufacturing Science and Engineering , 128 ( 2 ): 435 – 444 .
- Karpat , Y. ; Özel , T. ( 2006b ) Predictive analytical and thermal modeling of orthogonal cutting process. Part II: Effect of tool flank wear on tool forces, stresses and temperature distributions . ASME Journal of Manufacturing Science and Engineering , 128 ( 2 ): 445 – 453 .
- Komanduri , R. ; Hou , Z.B. ( 2001a ) Thermal modeling of the metal cutting process, Part 1: Temperature rise distribution due to shear plane heat source . International Journal of Mechanical Science , 42 : 1715 – 1752 .
- Komanduri , R. ; Hou , Z.B. ( 2001b ) Thermal modeling of the metal cutting process, Part 2: Temperature rise distribution due to frictional heat source at the tool-chip interface . International Journal of Mechanical Science , 43 : 57 – 88 .
- Komanduri , R. ; Hou , Z.B. ( 2001c ) Thermal modeling of the metal cutting process, Part 3: Temperature rise distribution due to combined effects of shear plane heat source and the tool-chip interface frictional heat source . International Journal of Mechanical Science , 43 : 89 – 107 .
- Li , K.M. ; Liang , S.Y. ( 2005 ) Modeling of cutting temperature in near dry machining . Journal of Manufacturing Science and Engineering, Transactions of the ASME , 128 ( 2 ): 1 – 9 .
- Loewen , E.G. ; Shaw , M.C. (1954) On the analysis of cutting tool temperatures. Transactions of the ASME , 71: 217–231.
- M'Saoubi , R. ; Eggertsson , C. ; Chandrasekaran , H. ( 2002 ) Application of IR-CCD technique to map tool temperature distribution in single point turning of quenched and tempered steel. IM Report No IM-2002-563, Swedish Institute for Metals Research .
- Trigger , K.J. ; Chao , B.T. ( 1951 ) An analytical evaluation of metal cutting temperatures . Transactions of the ASME , 73 : 57 – 68 .