참고문헌
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- J. of Materials Processing Technology v.98 Tube Hydroforming State-of-the-Art and Future Trends M. Ahmetoglu;T. Altan https://doi.org/10.1016/S0924-0136(99)00302-7
- 한국소성가공학회지 v.10 no.7 유한요소법을 이용한 자동차 로어암의 액압성형 해석 김정;장유철;강성종;강범수
- Innovation in Tube Hydroforming Technology International Conference Optimization of Process and Tool Development for Tube Hydroforming Using Computer Simulation J. Liu;D. Hahn
- 한국자동차공학회지 v.9 no.6 튜브 액압성형 공정에서의 터짐 현상 예측 김정;L.P. Lei;강성종;강범수
- J. of Materials Processing Technology v.83 Step wise combined implicilt-explicit finite element simulation of autobody stamping processes D.W. Jung;D.Y. Yang https://doi.org/10.1016/S0924-0136(98)00059-4
- White papers in MARC Corp. Comparison between the static implicit and dynamic explicit methods for FEM simulation of sheet forming processes S.P. Wang;S. Choudhry S.;T.B. Wertheimer
- J. of Material Processing Technology v.105 Comparison of implicit and explicit finite element methods for dynamic problems J.S. Sun;K.H. Lee;H.P. Lee https://doi.org/10.1016/S0924-0136(00)00580-X
- Numerical Methods for Simulation of Industrial Metal Forming Processings ASME, CED-Vol.5/AMD v.156 Industrial application of implicit and explicit finite element methods to forming process N. Rebelo;J.C. Nagtegall;L.M. Taylor
- Int. J. of Mechnical Science v.44 no.7 Bursting Failure Prediction in Tube Hydroforming Processes by using Rigid-plastic FEM Combined with Ductile Fracture Criterion L.P. Lei;J. Kim;B.S. Kang https://doi.org/10.1016/S0020-7403(02)00045-0
- Intl. J. of Machine Tools & Manufacturing v.42 Manufacture of an Automobile Lower Arm by Hydroforming J. Kim;L.P. Lei;S.M. Hwang;S.J. Kang;B.S. Kang https://doi.org/10.1016/S0890-6955(01)00087-6
- Metal Forming and the Finite Element Method S. Kobayashi;S.I. Oh;T. Altan
- J. of Mech. Work Tech. v.4 Criteria for Ductile Fracture and Their Applications M. Oyane;T. Sota;K. Okintoto;S. Shima https://doi.org/10.1016/0378-3804(80)90006-6
- J. of Materials Processing Technology v.95 The Application of Some Criteria for Ductile Fracture to the Prediction of the Forming Limit of Sheet Metals H. Takuda;K. Mori;N. Hatta https://doi.org/10.1016/S0924-0136(99)00275-7
- J. of Materials Processing Technology v.92-93 Prediction of Forming Limit in Bore-Expanding of Sheet Metals Using Ductile Fracture Criterion H. Takuda;K. Mori;H. Fujimoto;N. Hatta https://doi.org/10.1016/S0924-0136(99)00122-3
- Transaction of NAMRI/SME XXIV Prediction of Forming Limit in Deep Drawing of Finite Element Simulation and Criterion for Ductile Fracture K. Mori;H. Takuda
- Int. J. of Mech. Sci. v.42 Finite Element Analysis of Limit Strains in Biaxial Stretching of Sheet Metals Allowing for Ductile Fracture H. Takuda;K. Mori;N. Takakura;K. Yamaguchi https://doi.org/10.1016/S0020-7403(99)00018-1
- Engineering Computations v.13 no.2/3/4 Solution of quasi-static, force driven problems by means of a dynamic explicit approach and an adaptive loading procedure K. Mattiasson;L. Bernspang;A. Samuelsson https://doi.org/10.1108/02644409610114521
- Engineering Computations v.15 no.6 On the dynamic effects of explicit FEM in sheet metal forming analysis W.J. Chung;J.W. Cho;T. Belytschko https://doi.org/10.1108/02644409810231880
피인용 문헌
- A Prediction of Bursting Failure in Tube Hydroforming Process Based on Necking Conditions vol.13, pp.7, 2004, https://doi.org/10.5228/KSPP.2004.13.7.629