1 |
Johnson, G.R., Cook, W.H., 1985. Fracture characteristics of three metals subjected to various strain, strain rates temperatures and pressures. Eng. Fract. Mech. 21 (1), 31-48.
DOI
|
2 |
Jones, N., 1989. Structural Impact. Cambridge University Press, Cambridge.
|
3 |
KOEM Korea Maritime Environment Management Corporation, www.kmprc.or.kr.
|
4 |
Lee, B.I., Yoo, H.S., Byun, G.G., Kim, H.G., 2002. A study on automation of steel plate forming by heating method. J. Soc. Nav. Archit. Korea 39 (2), 34-44.
DOI
|
5 |
Lee, J.W., 1983. On the optimization design of soft bow structure. In: Proc. of the 2nd Internal. Symposium on Practical Design of Ships and Mobile Units, pp. 429-435.
|
6 |
Lee, J.S., 2010. Development of knowledge-based method to automatically derive the deformation estimation formula due to line heating. J. Weld. Join. 28 (1), 92-99.
DOI
|
7 |
Lehmann, E., Yu, X., 1998. On ductile rupture criteria for structural tear in case of ship collision and grounding. In: 7th International Symposium on Practical Design of Ships and Mobile Units, pp. 149-156.
|
8 |
Lim, J.H., 2005. Study on Dynamic Tensile Tests of Auto-body Steel Sheet at the Intermediate Strain Rate for Material Constitutive Equations (Ph.D. thesis).
|
9 |
Lim, H.K., 2012. A Study on the Plasticity and Fracture of Steels for Ship Shell Structure by Line Heating (Ph.D. thesis). University of Ulsan.
|
10 |
Meyers, M.A., 1994. Dynamic Behavior of Materials. John Wiley & Sons, New York.
|
11 |
Min, D.K., Shim, C.S., Shin, D.W., Cho, S.R., 2011. On the mechanical properties at low temperatures for steels of ice-class vessels. J. Soc. Nav. Archit. Korea 48 (2), 171-177.
|
12 |
Minorsky, V.U., 1958. An analysis of ship collisions with reference to protection of nuclear power plants. J. Ship Res. 3 (1), 1-4.
|
13 |
Paik, J.K., Pedersen, P.T., 1995. Collision strength analysis of double Hull tanker. J. Soc. Nav. Archit. Korea 32 (1), 102-117.
|
14 |
Shin, J.G., 1992. A two-dimensional simulator for plate forming by line heating. J. Soc. Nav. Archit. Korea 29 (1), 191-200.
|
15 |
Simulia, 2013. Introduction to Abaqus. BB-Media, Korea.
|
16 |
Tsuji, I., Okumura, Y., 1988. A study on line heating process for plate bending of ship steels. J. West. Soc. Nav. Archit. 76, 149-160.
|
17 |
Urban, J., 2003. Crushing and Fracture of Lightweight Structures. Technical University of Denmark.
|
18 |
Wisniewski, K., Koiakowski, P., 2003. The effect of selected parameters on ship collision results by dynamic FE simulation. Finite Elem. Anal. Des. 39, 985-1006.
|
19 |
Kim, J.W., Lee, J.S., 2011. A study of thermal deformation characteristics of steel plate due to multi-line heating. In: Proceedings of the Annual Autumn Meeting. SNAK, Mokpo, pp. 849-852, 3-4 November.
|
20 |
Amdalh, J., 1983. Energy Absorption in Ship-platform Impacts. Report No. UR-83-34. The University of Trondheim, Trondheim.
|
21 |
Choung, J.M., 2007. On the Fracture Criteria of Steels for Marine Structures Subjected to Impact Loadings (Ph.D. thesis). University of Ulsan.
|
22 |
Choung, J.M., Shin, C.S., Kim, K.S., 2011. Plasticity and fracture behaviors of a marine structural steel, Part II: technical backgrounds of fracture. J. Ocean Eng. Technol. 25 (2), 92-100.
DOI
|
23 |
Cowper, G.R., Symonds, P.S., 1957. Strain Hardening and Strain Rate Effects in the Impact Loading of Cantilever Beams. Technical Report no. 28, Brown University to the Office of Naval Research under Contract No. NR-562(10).
|
24 |
Ha, Y.S., 2001. A Study on the Prediction of Plate Deformation by Heating of Weaving Path in Thick Plate Bending. Master Thesis. Seoul National University.
|
25 |
Jang, C.D., Ko, D.E., Kim, B.I., Park, J.U., 2001. An experimental study of characteristics of plate deformation by heating process. J. Soc. Nav. Archit. Korea 38 (2), 62-70.
|