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1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. © 3-Dimensional Conjugate Laser Heating Of A Moving Slab Shuja, SZ; Yilbas, BS ELSEVIER SCIENCE BV, APPLIED SURFACE.

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Presentation on theme: "1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. © 3-Dimensional Conjugate Laser Heating Of A Moving Slab Shuja, SZ; Yilbas, BS ELSEVIER SCIENCE BV, APPLIED SURFACE."— Presentation transcript:

1 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. © 3-Dimensional Conjugate Laser Heating Of A Moving Slab Shuja, SZ; Yilbas, BS ELSEVIER SCIENCE BV, APPLIED SURFACE SCIENCE; pp: 134-148; Vol: 167 King Fahd University of Petroleum & Minerals http://www.kfupm.edu.sa Summary The laser surface treatment of engineering parts requires gas assisted processing, since the assisting gas shields the surface from the high temperature oxidation during the laser heating process. In the present study, modeling of the laser gas-assisted heating process is considered. The assisting gas, which is air, is assumed to impinge onto the workpiece surface co-axially with the laser beam while the workpiece, which is stainless steel, moves with a constant velocity. Low-Reynolds number k-epsilon model is introduced to account for the turbulence. The flow and heat conduction equations are solved numerically using a control volume approach. The simulation of a conjugate heating is carried out for three workpiece speeds. It is found that the workpiece movement effects considerably the temperature rise inside the solid substrate i.e. higher the workpiece speed results in lower the surface temperature in the direction of workpiece movement. In addition, the convective cooling effect of the impinging gas jet is more pronounced as the radial distance along the workpiece surface increases. (C) 2000 Elsevier Science B.V. All rights reserved. References: AKGUN OV, 1994, J MATER SCI, V29, P1159 BAUGHN JW, 1989, ASME, V111, P1096 BLACKWELL BF, 1990, J HEAT TRANS-T ASME, V112, P567 BRADSHAW P, 1981, ENG CALCULATION METH, P51 CRAFT TJ, 1993, INT J HEAT MASS TRAN, V36, P2685 EHRLAND P, 1993, INT J HEAT MASS TRAN, V36, P3997 ELKAIM D, 1992, INT J NUMER METH FL, V14, P961 GERODIMOS G, 1997, J FLUID ENG-T ASME, V119, P304 HOADLEY AFA, 1991, METALL TRANS B, V22, P101 HOSSEINALIPOUR SM, 1995, NUMER HEAT TR A-APPL, V28, P647 HUANG LM, 1994, INT J HEAT MASS TRAN, V37, P1915 Copyright: King Fahd University of Petroleum & Minerals; http://www.kfupm.edu.sa

2 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32. © IGNATIEV M, 1993, WEAR, V166, P233 JIANGLONG L, 1993, SURF COAT TECH, V5, P191 KANT R, 1991, J HEAT TRANS-T ASME, V113, P12 LEE D, 1995, J HEAT TRANS-T ASME, V117, P772 LU Y, 1994, APPL SURF SCI, V79, P481 MANCA O, 1995, INT J HEAT MASS TRAN, V38, P1305 MANCA O, 1999, J HEAT TRANS-T ASME, V121, P182 MAZUMDER J, 1980, J APPL PHYS, V51, P941 MODEST MF, 1986, J HEAT TRANS-T ASME, V108, P597 MODEST MF, 1998, J HEAT TRANS-T ASME, V120, P892 RODI W, 1984, TURBULENCE MODELS TH SHUJA SZ, 1998, INT J HEAT MASS TRAN, V41, P3899 SHUJA SZ, 1998, NUMER HEAT TR A-APPL, V33, P315 STEEN WM, 1977, LETT HEAT MASS TRANS, V4, P167 VERSTEEG HK, 1995, INTRO COMPUTATIONAL WEI PS, 1993, J HEAT TRANS-T ASME, V115, P848 WOMAC DJ, 1993, ASME, V115, P106 XIN H, 1996, J MATER SCI, V31, P22 YERRAMAREDDY S, 1992, WEAR, V157, P245 YILBAS BS, 1994, P I MECH ENG C-J MEC, V208, P275 YILBAS BS, 1997, WEAR, V212, P140 For pre-prints please write to: abstracts@kfupm.edu.sa Copyright: King Fahd University of Petroleum & Minerals; http://www.kfupm.edu.sa

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