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      틈새가 존재하는 이종강 레이저 용접부의 열유동에 관한연구 = A Study on Heat Flow of Laser-Welded Dissimilar Steel Joints with Gap

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      https://www.riss.kr/link?id=A101492855

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      다국어 초록 (Multilingual Abstract)

      A welding structures is generally composed of dissimilar steel materials in order to reduce weight cost, and has a gap to fill the welding agent. Also, heat flow analysis should be fulfilled for structure existing of gap to figure out residual stress ...

      A welding structures is generally composed of dissimilar steel materials in order to reduce weight cost, and has a gap to fill the welding agent. Also, heat flow analysis should be fulfilled for structure existing of gap to figure out residual stress which is generated after welding. Since mechanical properties of welding structure composed of dissimilar steel is more fragile than mechanical properties of welding structure consisted of same material, heat flow analysis verifying this should be fulfilled as well. Therefore, on this research, heat flow analysis about dissimilar steel weldment consisted of gap existing AISI304 and AISI630 is practiced so that it could be a basic data of research about mechanical properties of gap existing dissimilar steel welding part which is going to be studied later on. During heat flow analysis, heat input model which based on Gaussian profile and using volume heat flux was newly consisted and applied. In addition, for verifying of analysis on this research, gap existing dissimilar steel weldment which had gap of 0.25mm and was welded using Nd-YAG. The welding profile and temperature distribution for weldment during welding was compared to the result which was gotten through heat flow analysis. Both of those results corresponded each other.

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      참고문헌 (Reference)

      1 Friedman E, "“Thermo-mechanical analysis of the welding process using the finite element method”" 206213-, 1975.

      2 Ducharme R, "“The laser welding of thin metal sheets an integrated keyhole and weld pool model with supporting experiments” Journal of physics D" 27 : 16191627-, 1994.

      3 Westbym O, "“Temperature distribution in the workpiece by welding” The Technical Univ. of Norway Ph.D Dissertation" 1968.

      4 Goldak J. A, "“Progress in computing residual stress and strain in weld” Advances in welding science and technology" 523527-, 1986.

      5 Mahin K. W, "“Prediction and measurement of residual elastic strain distribution in gas tungsten arc welds”" 245260-, 1991.

      6 Powell J, "“Notes on the focusing characteristics of CO2 laser”" chapter 10.6 : 1993.

      7 Mueller R. A, "“Model for predicting keyhole and fusion zone depths in blind keyhole welding”" 509-518, 1994.

      8 Pammer Z, "“Mesh refinement method for transient heat conduction problems solved by finite elements” International journal for numerical methods in engineering" 15 : 495505-, 1980.

      9 Rosenthal D, "“Mathematical theory of heat distribution during welding and cutting”" 20 : 220234-, 1941.

      10 Mazumder J. and, "“Heat Transfer model for CW laser material processing”" 51 : 941947-, 1980.

      1 Friedman E, "“Thermo-mechanical analysis of the welding process using the finite element method”" 206213-, 1975.

      2 Ducharme R, "“The laser welding of thin metal sheets an integrated keyhole and weld pool model with supporting experiments” Journal of physics D" 27 : 16191627-, 1994.

      3 Westbym O, "“Temperature distribution in the workpiece by welding” The Technical Univ. of Norway Ph.D Dissertation" 1968.

      4 Goldak J. A, "“Progress in computing residual stress and strain in weld” Advances in welding science and technology" 523527-, 1986.

      5 Mahin K. W, "“Prediction and measurement of residual elastic strain distribution in gas tungsten arc welds”" 245260-, 1991.

      6 Powell J, "“Notes on the focusing characteristics of CO2 laser”" chapter 10.6 : 1993.

      7 Mueller R. A, "“Model for predicting keyhole and fusion zone depths in blind keyhole welding”" 509-518, 1994.

      8 Pammer Z, "“Mesh refinement method for transient heat conduction problems solved by finite elements” International journal for numerical methods in engineering" 15 : 495505-, 1980.

      9 Rosenthal D, "“Mathematical theory of heat distribution during welding and cutting”" 20 : 220234-, 1941.

      10 Mazumder J. and, "“Heat Transfer model for CW laser material processing”" 51 : 941947-, 1980.

      11 Argyris J. H, "“Finite element analysis of arc-welding process. Numerical methods in thermal problems” Proceedings of the third international conference" Pineridge Press 249258-, 1983.

      12 Tekriwal P, "“Finite Element Analysis of Three-Dimensional Transient Heat Transfer in GMA Welding” Welding research supplement" 150156-, 1988.

      13 un Z, "“Effect of processing parameters on Laser welded dissimilar steel joints”" 73 : 6370-, 1994.

      14 Argyris J. H, "“Computational aspects of welding stress analysis” Computer methods in applied mechanics and engineering" 33 : 635665-, 1982.

      15 Goldak J. A, "“A new finite element model for welding heat source”" 15b : 299305-, 1984.

      16 Carmignani C, "Transient finite element analysis of deep penetration laser welding process in a single-pass butt-welded thick steel plate" 179 (179): 197-214, 1999

      17 Wei P. S, "Three-dimensional analytical temperature field and its application to solidification characteristics in high-or low-power-density -beam welding" 40 (40): 2283-2292, 1997

      18 Ravigururajan T. S, "Thermal modeling of CW laser materials processing using finite element method" 126-135, 1996

      19 Lampa C, "The influence of gap with on laser welding" ICALEO 1995 504-512, 1995

      20 Park K. J, "Numerical study on the two-dimensional heat flow in high-power density welding process" 24 (24): 2000

      21 Dong Y, "Finite element modeling of residual stresses in austenitic stainless steel pipe girth welds" 76 (76): 442s-449s, 1997

      22 Frewin M. R, "Finite element model of pulsed laser welding" 15s-22s, 1999

      23 Cho H. Y, "Finite element analysis for prediction of weld bead shape of Nd:YAG pulse laser welding for AISI304 stainless steel plate" 8 (8): 19-26, 2005

      24 Cho S. K, "Effect of welding direction and residual stress on the laser welds" 5 (5): 1-8, 2002

      25 Zhu X. K, "Effect of temperature-dependent material properties on welding simulation" 80 (80): 967-976, 2002

      26 Sudnik V. A, "Computer simulation of weld formation in laser-beam welding with a gap" 14 (14): 142-146, 2000

      27 "ABAQUS/Standard User′s manual Ver. 6.5"

      28 Brickstad B, "A parametric study of residual stresses in multi-pass butt-welded stainless steel pipes" 75 (75): 11-25, 1998

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