Ultimate Strength of Ships and Offshore Structures
Carlos Guedes Soares
Journal of Marine Science and Application ›› 2020, Vol. 19 ›› Issue (4) : 509 -511.
Ultimate Strength of Ships and Offshore Structures
| [1] |
Al-Hamati AA, Duan M, An C, Guedes Soares C, Estefen S (2020) Buckling properties of SFC for oil /gas processing in deep-waters. J Mar Sci Appl 19(4):642–657 |
| [2] |
Barsotti B, Gaiotti M, Rizzo CM (2020) Recent Industrial Developments of Marine Composites Limit States and Design Approaches on Strength. J Mar Sci Appl 19(4):553–566 |
| [3] |
Cho S-R, Muttaqie T, Lee SH, Paek J, Sohn JM (2020) Ultimate Strength Assessment of Steel-Welded Hemispheres Under External Hydrostatic Pressure. J Mar Sci Appl 19(4):615–633 |
| [4] |
CSR (2006) ABS, DNV, LLOYD’S REGISTER. Common Structural Rules for Double Hull Oil Tankers |
| [5] |
Gordo JM and Guedes Soares C (1993) Approximate Load Shortening Curves for Stiffened Plates under Uniaxial Compression. Faulkner D, Cowling MJ & Incecik A, (Eds.). Integrity of Offshore Structures, 5, Proc 5th International Symposium on Integrity of Offshore Structures. Univ Glasgow, 17-18 June: EMAS;189-211 |
| [6] |
|
| [7] |
|
| [8] |
IACS Common structural rules for bulk carriers and oil tankers, 2014, International Association of Classification: Societies |
| [9] |
IMO (2006) Maritime Safety Committee MSC 81/INF.6. Goal-based new ship construction standards - linkage between FSA and GBS International Maritime Organisation |
| [10] |
Lee HH, Paik JK (2020) Ultimate Compressive Strength Computational Modelling for Stiffened Plate Panels with Non-Uniform Thickness. J Mar Sci Appl 19(4):658–673 |
| [11] |
Liu B, Doan VT, Garbatov Y, Wu WG, Guedes Soares C (2020) Study on Ultimate Compressive Strength of Aluminium-Alloy Plates and Stiffened Panels. J Mar Sci Appl 19(4):534–552 |
| [12] |
Nouri Z, Khedmati MR (2020) Progressive Collapse Analysis of a FPSO Vessel Hull Girder under Vertical Bending considering Different Corrosion Models. J Mar Sci Appl 19(4):674–692 |
| [13] |
Primorac BB, Parunov J, Guedes Soares C (2020) Structural Reliability Analysis of Ship Hulls Accounting for Collision or Grounding Damage. J Mar Sci Appl 19(4):717–733 |
| [14] |
Romanoff J, Körgesaar M, Remes H (2020) Emerging Challenges for Numerical Simulations of Quasi-Static Collision Experiments on Laser-Welded Thin-Walled Steel Structures. J Mar Sci Appl 19(4):567–583 |
| [15] |
Smith CS (1977) Influence of Local Compressive Failure on Ultimate Longitudinal Strength of a Ship's Hull, Proc. Conf. on Practical Design of Ships and Mobile Units (PRADS), Tokyo, 73-79 |
| [16] |
Tekgoz M, Garbatov Y, Guedes Soares C (2020) Review of Ultimate Strength Assessment of Ageing and Damaged Ship Structures. J Mar Sci Appl 19(4):512–533 |
| [17] |
Vu VT, Dong DT (2020) Hull Girder Ultimate Strength Assessment Considering Local Corrosion. J Mar Sci Appl 19(4):693–704 |
| [18] |
Wahab MMA, Kurian VJ, Liew MS, Kim DK (2020) Condition Assessment Techniques for Aged Fixed-type Offshore Platforms considering Decommissioning: A Historical Review. J Mar Sci Appl 19(4):584–614 |
| [19] |
Xu W, Guedes Soares C (2020) Numerical Investigation on the Ultimate Strength of Box Beams with Impact Damage. J Mar Sci Appl 19(4):705–716 |
| [20] |
Zhang J, Li SQ, Cui WC, Xiang K, Wang F, Tang WX (2020) Buckling of Multiple Intersecting Spherical Shells Under Uniform External Pressure. J Mar Sci Appl 19(4):634–641 |
/
| 〈 |
|
〉 |
PDF
