1 장인성, "자동차 산업에서 뿌리기술의 중요성및 최신 용접/접합 기술" 대한용접접합학회 34 (34): 21-25, 2016
2 O.C. Zienkiewicz, "Visco‐plasticity-plasticity and creep in elastic solids-a unified numerical solution approach" 8 (8): 821-845, 1974
3 R. Nandan, "Three- dimensional heat and material flow during friction stir welding of mild steel" 55 (55): 2007
4 S.D. Ji, "Numerical simulation of material flow behavior of friction stir welding influenced by rotational tool geometry" 63 : 218-226, 2012
5 D.G. Kim, "Numerical simulation of friction stir butt welding process for AA5083-H18 sheets" 29 (29): 204-215, 2013
6 J.H. Cho, "Mod-eling strain hardening and texture evolution in friction stir welding of stainless steel" 398 (398): 146-163, 2005
7 R. Ayer, "Interface structure in a Fe–Ni friction stir welded joint" 53 (53): 1383-1387, 2005
8 W.M. Thomas, "G.B. Patent Application No. 9,125,978.8, Dec. 1991, U.S. Patent No. 5,460,317, Oct. 1995"
9 T. Sheppard, "Determination of flow stress : Part 1 constitutive equation for aluminium alloys at elevated temperatures" 6 (6): 215-223, 1979
10 T. Sheppard, "Constitutive equations for use in prediction of flow stress during extrusion of aluminium alloys" 13 (13): 203-209, 1997
1 장인성, "자동차 산업에서 뿌리기술의 중요성및 최신 용접/접합 기술" 대한용접접합학회 34 (34): 21-25, 2016
2 O.C. Zienkiewicz, "Visco‐plasticity-plasticity and creep in elastic solids-a unified numerical solution approach" 8 (8): 821-845, 1974
3 R. Nandan, "Three- dimensional heat and material flow during friction stir welding of mild steel" 55 (55): 2007
4 S.D. Ji, "Numerical simulation of material flow behavior of friction stir welding influenced by rotational tool geometry" 63 : 218-226, 2012
5 D.G. Kim, "Numerical simulation of friction stir butt welding process for AA5083-H18 sheets" 29 (29): 204-215, 2013
6 J.H. Cho, "Mod-eling strain hardening and texture evolution in friction stir welding of stainless steel" 398 (398): 146-163, 2005
7 R. Ayer, "Interface structure in a Fe–Ni friction stir welded joint" 53 (53): 1383-1387, 2005
8 W.M. Thomas, "G.B. Patent Application No. 9,125,978.8, Dec. 1991, U.S. Patent No. 5,460,317, Oct. 1995"
9 T. Sheppard, "Determination of flow stress : Part 1 constitutive equation for aluminium alloys at elevated temperatures" 6 (6): 215-223, 1979
10 T. Sheppard, "Constitutive equations for use in prediction of flow stress during extrusion of aluminium alloys" 13 (13): 203-209, 1997
11 H.S. Carslaw, "Conduction of heat in solids" Clarendon Press 1959
12 G.Q. Chen, "Computational fluid dynamics studies on heat generation during friction stir welding of aluminum alloy" 79 : 540-546, 2013
13 H. Schmidt, "An analytitical model for the heat generation in friction stir welding" 12 (12): 143-157, 2003
14 G. Buffa, "A continuum based fem model for friction stir welding-model development" 419 (419): 389-396, 2005