References
- Japan Gas Association. 高圧ガス導管液状化耐震設計指針. 2001. (in Japanese).
- Miyazaki K, Nebu A, Kanno S, et al. Study on fracture criterion for carbon steel pipes with local wall thinning, pressure engineering. Journal of Japan High Pressure Institute. 2002;40(2):62–72.
- Weiss V: Material ductility and fracture toughness of metals, Proceedings of 1st International Conference on Mechanical Toughness of Metal, (1972), pp 458–474.
- Toyoda M, Ohata M, Yokota M, et al.: Criterion for ductile cracking for the evaluation of steel structure under large scale cyclic loading, Proceedings of the 20th International Conference on Offshore Mechanics and Arctic Engineering, (2001), OMAE01/MAT-3103, 2001.
- Rice JR, Ai Tracey D. On the ductile enlargement of voids in triaxial stress fields. Journal of the Mechanics and Physics of Solids. 1969;17:201–217.
- Mitsuya M, Hashimoto Y, Sakanoue T, et al.: Deformation behavior and limit state of high-grade induction bend pipes subjected to large ground deformation, Proceedings of the 18th International Offshore (Ocean) and Polar Engineering Conference, Vancouver, ISOPE, (2008), ISOPE-2008-267.
- Ling Y. Uniaxial true stress-strain after necking. AMP Journal of Technology. 1996;5:37–48.
- Mannuci G, Malatesta G: Evaluation of material response subjected to high plastic deformation when forged into saipem submarine repairing system, Proceedings of the 18th International Offshore (Ocean) and Polar Engineering Conference, Vancouver, ISOPE, (2008), ISOPE-2008-267.
- Coppieters S, Cooreman S, Sol H, et al. Identification of the post-necking hardening behaviour of sheet metal by comparison of the internal and external work in the necking zone. Journal of Materials Processing Technology. 2011;211:545–552.
- Brunig M. Numerical analysis and modeling of large deformation and necking. Finite Elements in Analysis and Design. 1998;28:303–319.
- Banabic D, Barlat F, Cazacu O, et al. Advances in anisotropy and formability. International Journal of Material Forming. 2010;3:165–189.
- Kuwabara T. Advances in experiments in metal sheets and tubes in support of constitutive modeling and forming simulations. International Journal of Plasticity. 2007;23(3):385–419.
- Kuwabara T, Ikeda S, Kuroda K. Measurement and analysis of differential work hardening in cold-rolled steel sheet under biaxial tension. Journal of Materials Processing Technology. 1998;80(81):517–523.
- Hakoyama T, Kuwabara T. Biaxial tensile test of high strength steel sheet for large plastic strain range. Key Engineering Materials. 2012;504:59–64.
- Y. Hanabusa, H. Takizawa and T. Kuwabara. Numerical verification of a biaxial tensile test method using a cruciform specimen. Journal of Materials Processing Technology. 2013;213:961–970.
- Murai K, Motohashi H, Hagiwara N. Investigation on correlation between Drop-Weight tear test and Charpy impact test for small diameter line pipes. 溶接学会全国大会講演概要. 2007;142–143. (in Japanese).
- Barlat F, Brem JC, Yoon JW, et al. Plane stress yield function for aluminum alloy sheets – Part 1: theory. International Journal of Plasticity. 2003;19:1297–1319.
- Yoshida F, Hamasaki H, Uemori T. A user-friendly 3D yield function to describe anisotropy of steel sheets. International Journal of Plasticity. 2013;45:119–139.
- Hill R. A theory of the yielding and plastic flow of anisotropic metals, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences. 1948;193:281–297.
- García-Garino C, Gabaldón F, Goicolea J. Finite element simulation of the simple tension test in metals. Finite Elements in Analysis and Design. 2006;42:1187–1197.