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Ships and Offshore Structures Volume 16, 2021 - Issue 1
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Hall of Fame

A Pioneer of Computational Welding Mechanics and Ultimate Strength Analysis (ISUM)

Yukio Ueda PhDDr. Eng, Honorary Dr. Eng. (Norwegian University of Science and Technology)
(Professor)
Pages 11-30 | Published online: 22 Dec 2020

References and awards

  • Ueda Y., (1962), Elastic, Elastic-Plastic and Plastic Buckling of Plates with Residual Stresses, Ph.D. Dissertation submitted to Lehigh University, U.S.A.
  • Ueda Y., Tall L., (1967), Inelastic Buckling of Plates with Residual Stresses, International Association for Bridge and Structural Engineering, pp.212-254
  • Terazawa K., Ueda Y., Matsuishi M., (1969), El-Pl Buckling of Plates by Finite Element Method, ASCE Annual Meeting, New Orleans, Feb. 3∼7, Meeting Preprint 845
  • Ueda Y., Yamakawa T., Akamatsu T., Matsuishi M., (1969), A New Theory on Elastic-Plastic Analysis of Framed Structures, Technology Reports, Osaka University, Vol.19 No.875, pp.263-276
  • Satoh K., Ueda Y., Kihara H., (1972), Recent Trend of Researches on Restraint Stresses and Strains for Weld Cracking, Transactions, JWRI, Vol.1, No. 1, pp.53-68
  • Satoh K., Ueda Y., Kihara H., (1974), Tendances actuelles des recherches sur les contraintes et de ’formations dues au bridage en relation avec la fissuration des soudures, Techniques Soudage et Connexes, Vol.28, No 1/2, pp.43-60
  • Ueda Y., Yamakawa T., (1971), Analysis of Thermal Elastic-Plastic Stress and Strain during Welding by Finite Element Method, Transactions of Japan Welding Society, Vol. 2, No. 2, pp.90-100
  • Ueda Y., Yamakawa T., (1972), Thermal Stress Analysis of Metals with Temperature Dependent Mechanical Properties, Proceedings, the 1971 International Conference on Mechanical Behavior of Materials, Vol. III, pp.10-20
  • Ueda Y., Fukuda K., (1977), Application of Finite Element Method for Analysis on Process of Stress Relief Annealing, Transactions of Japan Welding Society, Vol. 8, No.1, pp. 19-25.
  • Ueda Y., Fukuda K., Nakacho K., Takahashi E., Sakamoto K., (1976), Transient and Residual Stresses from Multi-pass Weld in Very Thick Plates and Their Reduction from Stress Relief Annealing, the 3rd International Conference on Pressure Vessel Technology, Part II, Materials and Fabrication, pp.925-933
  • Ueda Y., Murakawa H., Nakacho K., Ma N. X., (1995), Establishment of Computational Welding Mechanics, Transactions of JWRI, Vol.24, No.2, pp.73-86
  • Ueda Y., Wang J., Murakawa H., Yuan M. G., (1992), Three Dimensional Numerical Simulation of Various Thermo-mechanical Processes by FEM (Report I) --Methods for Improving the convergence of 3-D Analysis of Welding—,Transactions of JWRI, Vol.21, No. 2, pp.111-117
  • Ueda Y., Murakawa H., Wang J., Yuan M. G., (1992), Three Dimensional Numerical Simulation of Various Thermo-mechanical Processes by FEM (Report II) –Deformation Analysis of Compressor under Assembly by Shrinkage Fit—,Trans. JWRI, Vol. 21, No.2, pp.119-124
  • Yuan M.G., Wang J., Murakawa H., Ueda Y., (1995), Three Dimensional Finite Element Analysis of Welding Residual Distortions in Welded Structures, Modeling of Casting and Advanced Solidification Processes VII, The Minerals, Metals & Materials Society, pp.257-264
  • Wang J., Ueda Y., Murakawa H., Yuan M.G., Yang H.Q., (1996), Improvement in Numerical Accuracy and Stability of 3-D FEM Analysis in Welding, Welding Journal, AWS, Vol.75, No.4, pp.129s-134s
  • Rosenthal D., Norton J.T., (1945), A Method of Measuring Tri-axial Residual Stresses in Plates, Welding Journal, Vol. 24, No. 5, pp. 295s-307s,
  • Ueda Y, Fukuda K., Endo S., (1975), A Study on the Accuracy of Estimated Residual Stresses by the Existing Measuring Methods, Trans. of JWRI, Vol.4, No. 2, pp.117-121
  • Ueda Y., Fukuda K., Nakacho K., (1977a), Basic Procedure in Analysis and Measurement of Welding Residual Stresses by the Finite Element Method, Proceedings International Conference on "Residual Stresses in Welded Construction and Their Effects", The Welding Institute, pp.27-37
  • Ueda Y., Fukuda K., Nakacho K., Endo S., (1977b), Fundamental Concept in Measurement of Residual Stresses Based on Finite Element Method and Reliability of Estimated Values, THEORETICAL AND APPLIED MECHANICS, Vol.25, pp.539-554
  • Ueda Y., Fukuda K., (1989), New Measuring Method of Three-Dimensional Residual Stresses in Long Welded Joints Using Inherent Strains as Parameters --Lz Method, Transaction of ASME, Journal of Engineering Materials and Technology, Vol.111, pp.1-8
  • Ueda Y., Fukuda K., and Tanigawa M., (1981), “New Measuring Method of Three Dimensional Residual Stresses Based on Theory of Inherent Strain”, IIW Doc. X-987-81, & Transactions of JWRI, Vol.8, No. 2, (1979), pp.249-256
  • Ueda Y., MA N. X., (1994), Measuring Methods of Three-Dimensional Residual Stresses with Aid of Distribution Function of Inherent Strain (Report I) -A Function Method for Estimating Inherent Strain Distributions-, Transactions of JWRI, Vol.23, No.1, pp.71-78
  • Ma N. X., Ueda Y., (1994), Measuring Methods for Three-Dimensional Residual Stresses with The Aid of Distribution Functions of Inherent Strain (Report 2) –TLy Lz-Method and T-Method for Measurement of 3-Dimensional Residual Stresses in Band-on-plate Welds-“, Transactions of JWRI, Vol.23, No.2, pp.239-247
  • Ueda Y., Ma N. X., (1995), Measuring Methods of Three Dimensional Residual Stresses with Aid of Distribution Function of Inherent Strain (Report 3) … Distributions of Residual Stresses and Inherent Strains in Fillet Welds, Transactions of JWRI, Vol. 24, No. 2, pp.123-130
  • Ma, N X, Ueda, Y, Murakawa, H and Yuan, M G (1997). “FEM Analysis on Welding Residual Stresses in T-Type Fillet Welds” Mathematical Modeling of Weld Phenomena 3, The Institute of Materials, pp.590-605
  • Ueda Y., Murakawa H., Ma N.X., (1996), Measuring Method for Residual Stresses in Explosively Clad Plates and a Method of Residual Stresses Reduction, Journal of Engineering Materials and Technology, ASME, Vol.118, pp.576-582
  • Ueda Y., (1996), Chapter 4 Sectioning Method, Handbook of Measuring of Residual Stresses, Society of Experimental Mechanics. (U.S.A.)
  • Ueda Y., (1997), Chapter 5 Prediction and Measuring Methods of Two-and Three-Dimensional Welding Residual Stresses by using Inherent Strain as a Parameter, Modeling in Welding, Hot Powder Forming, and Casting. American Society for Metals, International, (U.S.A.)
  • Ueda Y., Yuan M.G., (1993), Prediction of Residual Stresses in Butt Welded Plates Using Inherent Strains, Transactions, ASME, J Engineering Materials and Technology, Vol.115, pp.417-423
  • Yuan M.G., Ueda Y., (1996), Prediction of Residual Stresses in Welded T-and I-Joints Using Inherent Strains, Journal of Engineering Materials and Technology, ASME, Vol.118, pp.229-234
  • Luo Y., Murakawa H., Ueda Y., (1996), Prediction of Welding Deformation and Residual Stress by Elastic FEM Based on Inherent Strain -Report 1 -Mechanism of Inherent Strain Production”. Proceedings of the 6th International Symposium of Japan Welding Society, Vol.2, pp.783-793
  • Murakawa H., Luo Y., Ueda Y., (1997), Inherent Strain as an Interface between Computational Welding Mechanics and its Industrial Application, the 4th International Seminar on Numerical Analysis of Weldability, Session X
  • Murakawa H., Luo Y., Ueda Y., (1998), Theoretical Prediction of Welding Deformation at Groove in Narrow Gap Welding, Proceedings of the 5th International Conference on Trends in Welding Research, pp.993-998
  • Ueda Y., Murakawa H., Rashwan A. M., Okumoto Y., Kamichika R., (1994), Development of Computer-Aided Process Planning System for Plate Bending by Line Heating (Report 1), Transactions, SNAME, Journal of Ship Production, Vol.10, No.1, pp.59-67
  • Ueda Y., Murakawa H., Rashwan A. M., Okumoto Y., Kamichika R., (1994), Development of Computer-Aided Process Planning System for Plate Bendibjng by Line Heating (Report 2), Transactions, SNAME, Journal of Ship Production, Vol.10, No.4, pp.239-247
  • Ueda Y., Murakawa H., Rashwan A. M., Okumoto Y., Kamichika R., (1994), Development of Computer-Aided Process Planning System for Plate Bending by Line Heating (Report 3), Transactions, SNAME, Journal of Ship Production, Vol.10, No.4, pp.248-257
  • Ueda Y., Murakawa H., Gu S. M., Okumoto Y., Ishiyama M., (1994), FEM Simulation of Gas and Plasma Cutting with Emphasis on Precision of Cutting, Transactions JWRI, Vol.23, No. 1, pp.93-102
  • Ueda Y., Murakawa H., Gu S. M., Okumoto Y., Kamichika R., (1992), Simulati on of Welding Deformation for Precision Ship Assembling (Report I)—In-plane Deformation of Butt Welded Plate—, Transactions of JWRI, Vol.21, No. 2, pp.125-135
  • Ueda Y., Murakawa H., Gu S.M., Okumoto Y., Nakamura M., (1993), Simulation of Welding Deformation for Accurate Ship Assembling (Report II) --Influence of Initial Geometrical Imperfection on Butt Welded Plate, Transactions of JWRI, Vol.2, No.1, pp.135-144
  • Gu S.M., Murakawa H., Ueda, Y., Okumoto Y. (1996), Simulation of Welding Deformation for Accurate Ship Assembly (Report III)–Out-of-Plane Deformation of Butt welded Plate, Transactions of JWRI, Vol. 25, No. 1, pp.69-79
  • Gu S. M., Murakawa H., Ueda Y., Okumoto Y., Ishiyama M., (1997) Simulation of Out-of- plane Deformation in Butt Welding of Large Size Steel Plate, Mathematical Modeling of Weld Phenomena 3, The Institute of Materials, U. K. pp.689-712
  • Ueda Y., Fukuda K., Low J. K., (1974), Mechanism of Production of Residual Stress due to Slit Weld, Transactions of JWRI, Vol. 3, No. 2, pp.159-166.
  • Ueda Y., Fukuda K., Kim Y. C., (1984), Dynamical Characteristics of Oblique Y-Groove Welding Cracking Test Specimen of Arbitrary Thickness, Transaction of JWRI, Vol.13, No. 2, pp.131-138
  • Ueda Y., Fukuda K., Kim Y. C., Koki R., (1982), Characteristics of Restraint Stress-Strain of Slit Weld in a Finite Rectangular Plate and the Significance of Restraint Intensities as a Dynamical Measure, Transactions of JWRI, Vol.11, No. 2, pp.105-113
  • Ueda Y., Kim Y. C., (1984), Dynamical Aspect of Cold Cracking Parameter, Transaction of JWRI, Vol.13, No.1, pp.77-86
  • Ueda Y., Fukuda K., Nishimura I., Iiyama H., Chiba N., (1984), Cracking in Welded Corner Joints. Journal of Metal Construction, Vol.16, No.1, pp.30-34
  • Ueda Y., Nakacho K., Shimizu T., (1986), Improvement of Residual Stresses of Circumferential Joint of Pipe by Heat-Sink Welding, Transactions of ASME, Journal of Pressure Vessel Technology, Vol.108, pp.14-22
  • Ueda Y., Ikeda K., Yao T., Aoki M., Yoshie T., Shirakura T., (1977), Brittle Fracture Initiation Characteristics under Bi-Axial Loading, International Conference on Fracture 1977, Vol.2, ICF 4 Waterloo, Canada, pp.173-181
  • Ueda Y., Ikeda K., Yao T., Aoki M., Shibasaki S., Shirakura T., (1980) , Brittle Fracture Initiation Characteristics under Bi-Axial Tensile Load with Large Scale and General Yielding, Advances in Fracture Research. Pergamon Press Oxford and New York, pp.2321-2328
  • Ueda Y., Ikeda K., Yao T., Aoki M., (1983), Characteristics of Brittle Fracture under General Combined Modes Including Those Under Bi-Axial Tensile Loads, Journal of Engineering Fracture Mechanics, Vol.18, No.6, pp.1131-1158
  • Ueda Y., (1983), “Characteristics of Brittle Fracture under General Combined Modes”, Proceedings of ICF, International Symposium of Fracture Mechanics, Beijing, China, pp.225-242
  • Liang W., Sone S., Serizawa H., Murakawa H., (2004), A Simple Measuring Method of Welding Inherent Deformation Using Inverse Analysis, Proceedings of the 14th International Offshore and Polar Engineering Conference, Toulon, ISOPE, Vol 4, pp.148-153.
  • Liang W., Dean D., Sone S., Murakawa H., (2005), Prediction of welding distortion by elastic Finite Element Analysis using inherent deformation estimated through inverse analysis, Welding in the World, Vol.49, No.11/12, pp.30-39.
  • Nishikawa H., Oda I., Shibahara M., Serizawa H., Murakawa H., (2004), Three-dimensional Thermal-elastic-plastic FEM Analysis for Predicting Residual Stress and Deformation Under Multi-pass Welding, Proceedings of the 14th International Offshore and Polar Engineering Conference, Toulon, ISOPE, Vol 4, pp. 126-133
  • Ueda Y., (1999), Computational Welding Mechanics, JWRI, Osaka University, Japan
  • Radaj D., (2003), Welding residual stresses and distortion; Calculation and measurement, DVS-Verlag GmbH, Dusseldorf
  • Ueda Y., Murakawa H., Ma N.X., (2012), Welding Deformation and Residual Stress Prevention, BH, Elsevier,
  • Ueda Y., Yao T., (1984), Influence of Shape of Initial Deflection upon Compressive Ultimate Strength of Long Rectangular Plates, Transactions of JWRI, Vol.13,No.1, pp.87-103
  • Ueda Y., Yasukawa W., Yao T., Ikegami H., Ohminami R., (1977), Effects of Welding Residual Stresses and Initial Deflection on Rigidity and Strength of Square Plates Subjected to Compression (Report II), Transactions of JWRI, Vol. 6, No.1, pp.33-38
  • Ueda Y., Yao T., (1985), The Influence of Complex Initial Deflection Modes on the Behavior and Ultimate Strength of Rectangular Plates in Compression, Journal of Constructional Steel Research, Vol.5, No.4, pp.265-302
  • Ueda Y., Yao T., (1978), Compressive Strength of Plate Elements with Welding Residual Stresses and Deformation, Colloquium on Applications of Numerical Techniques in Welding, IIW,
  • Ueda Y., Yao T., (1981), Ultimate Strength of Stiffened Plates and Minimum Stiffness Ratio of Their Stiffeners (under Thrust), Transactions of JWRI, Vol.10, No.2, pp.225-237
  • Ueda Y., Yao T., (1983), Ultimate Strength of Compressed Stiffened Plates and Minimum Stiffness Ratio of Their Stiffeners, Journal of Engineering Structures, Vol.5, No.2, pp.97-107
  • Ueda Y., Yao T., (1991), Fundamental Behavior of Plates and Stiffened Plates with Welding Imperfections, Proceeding of ISMS’91: International Symposium on Marine Structures, Shanghai, China, pp.377-388
  • Ueda Y., Yao T., Nakacho K., Yuan M. G., (1992a), Prediction of Welding Residual Stress, Deformation and Ultimate Strength of Plate Panels, International Conference on Engineering Design in Welded Construction, IIW, Madrid, Spain, pp.251-259
  • Yao T., Ueda Y., (1987), Determination of Optimum Thickness of Corner Bracket Considering Bbouckling and/or Plastic Collapse, the 3rd International Symposium On Practical Design of Ships and Mobile Units, PRADS'87, Norway, pp.994-1003
  • Ueda Y., Matsuishi M., Yamauchi Y., Tanaka M., (1974), Non-linear Analysis of Plate using Finite Strip Method, Journal of Kansai Society of Naval Architects, Japan, Vol.154, pp.83-92, in Japanese
  • Ueda Y., Rashed S.M.H., Paik J. K., (1987), An Incremental Galerkin Method for Plates and Stiffened Plates, International Journal of Computers & Structures, Vol.27, N0.1, pp.145-156
  • Ueda Y., Rashed S. M. H., (1974), An Ultimate Transverse Strength Analysis of Ship Structure, Journal of Society of Naval Architects, Japan, Vol. 136, pp. 441-458, in Japanese
  • Ueda Y., Rashed S. M. H., (1984), The Idealized Structural Unit Method and Its Application to Deep Girder Structures, International Journal of Computers & Structures, Vol.18, No.2, pp.277-293
  • Ueda Y., Yao T., Fujikubo M., (1981), Plastic Node Method for Plate Problems, THEORETICAL AND APPLIED MECHANICS, Vol.30, pp.163-180
  • Ueda Y., Fujikubo M., (1991), Generalization of the Plastic Node Method, International Journal of Computer Methods in Applied Mechanics and Engineering, Vol. 92, pp.33-53
  • Ueda Y., Fujikubo M., (1992), Plastic Node Method Considering Strain-Hardening Effects, Computer Methods in Applied Mechanics and Engineering, Vol. 94, pp.317-337
  • Fujikubo M., Bai Y., Ueda Y., (1991), Dynamic Elastic-Plastic Analysis of Offshore Framed Structures by Plastic Node Method Considering Strain-Hardening Effects, International Journal of Offshore and Polar Engineering, Vol.1, No.3, Sept. pp.220-227
  • Ueda Y., Rashed S. M. H., Paik J. K., Masaoka K.,(1986), The Idealized structural Unit Method Including Global Nonlinearities, Journal of Society of Naval Architects, Japan, Vol.159, pp.283-293, in Japanese.
  • Rashed S. M. H., (1975), An Ultimate Transverse Strength Analysis of Ship Structures (The Idealized Structural Unit Method), Doctor Thesis, Osaka University. Japan
  • Ueda Y., Rashed S. M. H., (1991), Advances in the Application of ISUM to Marine Structures, Int. Conference on Advances in Marine Structures - 2, May, Dunfermline, Scotland, pp.628-64
  • Ueda Y., Rashed S. M. H., (1985), New Efficient and Accurate Method of Nonlinear Analysis of Offshore Tubular Frames (the Idealized Structural Unit Method), Transaction of ASME, Journal of Energy Resources Technology, Vol.107, pp.204-211
  • Ueda Y., Rashed S.M.H., Nakacho K., (1990), An Improved Joint Model and Equations for Flexibility of Tubular Joints, Transaction of ASME, Journal of Offshore Mechanics and Arctic Engineering. Vol 112, pp.157-168
  • Ueda Y., Rashed S. M.H., (1985), Behavior of Damaged Tubular Structural Members, Transaction of the ASME. Journal of Energy Resources Technology, Vol.107, pp.342-349
  • Ueda Y., Rashed S. M. H., Paik J., (1984), Plate and Stiffened Plate Units of the Idealized Structural Unit Method (1st Report), Journal of Society of Naval Architects, Japan, Vol. 156, pp.385-400, in Japanese
  • Ueda Y., Rashed S. M. H., Paik J., (1995). Bucking and Ultimate Strength Interaction in Plates and Stiffened Panels under Combined In-plane Biaxial and Shearing Forces, Journal of Marine Structures, Vol.8, pp. 1-36
  • Paik J.K., (1985), Ultimate strength analysis of ship structures by the idealized structural unit method, Ph.D. Dissertation, Osaka University, Japan, in Japanese.
  • Ueda Y., Rashed S. M. H., Abdel-Nasser Y., (1993), An Improved ISUM Rectangular Plate Element Taking Account of Post-Ultimate Strength Behavior, Journal of Marine Structures, Vol.6, pp.139-172
  • Ueda Y., Masaoka K., (1993), Ultimate Strength Analysis of Thin Plated Structures Using Eigen-Functions (1st Report), Journal of Society of Naval Architects, Japan, Vol. 174, pp.439-445, in Japanese
  • Ueda Y., Masaoka K., (1995), Ultimate Strength Analysis of Thin Plated Structures Using Eigen-Functions (2nd Report), Journal of Society of Naval Architects, Japan, Vol.178, pp.463-471, in Japanese
  • Ueda Y., Masaoka K., (1996) Ultimate Strength Analysis of Thin Plated Structures Using Eigen-Functions (3rd Report), Journal of Society of Naval Architects, Japan, Vol.179, pp. 369-378, in Japanese
  • Masaoka K., Okada H., Ueda Y., (1998), A Rectangular Plate Element for Ultimate Strength Analysis, Thin-Walled Structures Research and Development, the 2nd International Conference on Thin-Walled Structures, ELSEVIER pp. 469-476
  • Fujikubo M., Kaeding P., (2002), New Simplified Approach to Collapse Analysis of Stiffened Plates, Journal of Marine Structures, Vol 15, pp.251–283
  • Ueda Y., Rashed S. M. H., Katayama M., (1980), Ultimate Strength Analysis of Double Bottom Structure by “Idealized Structural Unit Method”, Transactions of JWRI, Vol.9, No. 1, pp.115-122
  • Katayama M., (1979), Static Strength and Damage Analysis Method of Double Bottom structures, Dr. Engineering, Dissertation, Osaka University, in Japanese
  • Ueda Y., Murakawa H., Xiang D., (1989), Classification of Dynamic Response of a Tubular Beam under Collision, The 8th International Conference on Offshore Mechanics and Arctic Engineering, Vol.11, pp.645-652
  • Ueda Y., Murakawa H., Xiang D., (1990), Fundamental Study on Elastic Response of Offshore Structure under Collision -Classification of Phenomena Based on Hierarchical Nature of Deformation-,Proc. of the 1st Pacific/Asia Offshore Mechanics Symposium, PACOMS'90, ISOPE, Seoul, Vol 3, pp.329-337
  • Murakawa H., Ueda Y., Xiang D., (1991), Prediction of Damage and Residual Strength of Tubular Member under Collision –Relative Speed of Dynamic Loads-, U.S.-Japan Seminar on Cyclic Buckling of Steel Structures and Structural Element under Dynamic Loading Conditions, Osaka, Japan, 1-4 July
  • Ueda Y., Murakawa H., Xiang D., (1991), Effect of Fluid Force Acting on the Colliding Body upon the Elastic-Plastic Response of an Offshore Structure, Proc. of the 1st Int. Offshore and Polar Engineering Conf. Edinburgh, United Kingdom, Vol. IV, 11-16 Aug., pp.148-155
  • Ueda Y., Murakawa H., Xiang D., (1991), Effect of Fluid Force Acting on the Colliding Body upon the Elastic-Plastic Response of an Offshore Structure, Int. Jl. of Offshore and Polar Engineering, Vol.1, No.4, pp.293-299.
  • Rashed S. M. H., Ishihama T., Nakacho K., Ueda Y., (1987), Ultimate Strength of Jack-up Rigs in Survival and Punch-through Conditions, the 3rd International Symposium of Practical Design of Ships and Mobile Units, PRADS'87, Norway, pp.1224-1237
  • Ueda Y., Katayama M., Kitamura K., Okumoto Y., Yoshida Y., (1987), Ultimate Strength Analysis of Double Bottom Structures in Stranding Conditions, The 3rd International Symposium on Practical Design of Ships and Mobile Units, PRADS'87 Norway, pp.1043-1059
  • Tanigawa M., Murakawa H., Kamei S., Sekihama M., Ueda Y., (1997), An Evaluation Method for Ductile Fracture Strength of Ship Side Structure Subjected to Collision Loading, International Conference, Advances in Marine Structures III, pp.20-23
  • Pei Z., Fujikubo M., (2005), Application of Idealized Structural Unit Method to Progressive Collapse Analysis of Ship’s Hull Girder under Longitudinal Bending, Proceedings of the15th International Offshore and Polar Engineering Conference, Seoul, ISOPE, Vol 4, pp.766-773
  • Dow R.S., (1991), Testing and Analysis of a 1/3-Scale Welded Steel Frigate Model, International Conference on Advances in Marine Structures, Scotland, pp 749-773.
  • Yao T., Fujikubo M., Iijima K., Pei Z., (2009), Total System Including Capacity Calculation Applying ISUM/FEM and Loads Calculation for Progressive Collapse Analysis of Ship’s Hull Girder in Longitudinal Bending, Proceeding of the19th International Offshore and Polar Engineering Conference, Osaka, ISOPE, Vol. 4, pp.706-713.
  • Fujikubo M., (2005), Structural Analysis for the Design of VLFS, Journal of Marine Structures, Vol.18, No.2, pp.201-226.

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