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      KCI등재 SCIE SCOPUS

      Effect of corrosion on the ultimate strength of double hull oil tankers – Part II: hull girders

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      https://www.riss.kr/link?id=A104190724

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      다국어 초록 (Multilingual Abstract)

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      Numerous oil tanker losses have been reported and one of the possible causes of such casualties is caused by the structural failure of aging ship hulls in rough weather. In aging ships, corrosion and fatigue cracks are the two most important factors affecting structural safety and integrity. This research is about effect on hull girder ultimate strength behavior of double hull oil tanker according to corrosion after Part I: stiffened panel. Based on corrosion data of Part I (time-dependent corrosion wastage model and CSR corrosion model), when progressing corrosion of fourtypes of double hull oil tankers (VLCC, Suezmax, Aframax, and Panamax), the ultimate strength behavior of hull girder is compared and analyzed. In case of the ultimate strength behavior of hull girder, when occurring corrosion, the result under vertical and horizontal bending moment is analyzed. The effect of time-dependent corrosion wastage on the ultimate hull girder strength as well as the area, section modulus, and moment of inertia are also studied. The result of this research will be useful data to evaluate ultimate hull girder strength of corroded double hull oil tanker.
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      Numerous oil tanker losses have been reported and one of the possible causes of such casualties is caused by the structural failure of aging ship hulls in rough weather. In aging ships, corrosion and fatigue cracks are the two most important factors a...

      Numerous oil tanker losses have been reported and one of the possible causes of such casualties is caused by the structural failure of aging ship hulls in rough weather. In aging ships, corrosion and fatigue cracks are the two most important factors affecting structural safety and integrity. This research is about effect on hull girder ultimate strength behavior of double hull oil tanker according to corrosion after Part I: stiffened panel. Based on corrosion data of Part I (time-dependent corrosion wastage model and CSR corrosion model), when progressing corrosion of fourtypes of double hull oil tankers (VLCC, Suezmax, Aframax, and Panamax), the ultimate strength behavior of hull girder is compared and analyzed. In case of the ultimate strength behavior of hull girder, when occurring corrosion, the result under vertical and horizontal bending moment is analyzed. The effect of time-dependent corrosion wastage on the ultimate hull girder strength as well as the area, section modulus, and moment of inertia are also studied. The result of this research will be useful data to evaluate ultimate hull girder strength of corroded double hull oil tanker.

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      참고문헌 (Reference)

      1 ANSYS, "Version 12.0" ANSYS Inc. 2010

      2 Paik, J. K., "Ultimate strength performance of Suezmax tanker structures: Pre- CSR versus CSR designs" 151 (151): 2009

      3 Caldwell, J. B., "Ultimate longitudinal strength" 107 : 411-430, 1965

      4 Guo, J., "Time-varying ultimate strength of aging tanker deck plate considering corrosion effect" 21 (21): 402-419, 2008

      5 Paik, J.K., "The strength and reliability of bulk carrier structures subject to age and accidental flooding" 106 : 1-40, 1998

      6 Dow, R. S., "Testing and analysis of 1/3-scale welded steel frigate model" 1991

      7 Paik, J.K., "Ship-shaped Offshore Installations: Design, Building, and Operation" Cambridge University Press 2007

      8 백점기, "Ship Structural Analysis and Design" The Society of Naval Architects & Marine Engineers 2010

      9 IMO, "Revised interim guidelines for the approval of alternative methods of design and construction of oil tankers adopted by the Marine Environment Protection Committee of the Organization by Resolution MEPC 110(49)"

      10 Gudze, M.T., "Operational based corrosion analysis in naval ships" 50 (50): 3296-3307, 2008

      1 ANSYS, "Version 12.0" ANSYS Inc. 2010

      2 Paik, J. K., "Ultimate strength performance of Suezmax tanker structures: Pre- CSR versus CSR designs" 151 (151): 2009

      3 Caldwell, J. B., "Ultimate longitudinal strength" 107 : 411-430, 1965

      4 Guo, J., "Time-varying ultimate strength of aging tanker deck plate considering corrosion effect" 21 (21): 402-419, 2008

      5 Paik, J.K., "The strength and reliability of bulk carrier structures subject to age and accidental flooding" 106 : 1-40, 1998

      6 Dow, R. S., "Testing and analysis of 1/3-scale welded steel frigate model" 1991

      7 Paik, J.K., "Ship-shaped Offshore Installations: Design, Building, and Operation" Cambridge University Press 2007

      8 백점기, "Ship Structural Analysis and Design" The Society of Naval Architects & Marine Engineers 2010

      9 IMO, "Revised interim guidelines for the approval of alternative methods of design and construction of oil tankers adopted by the Marine Environment Protection Committee of the Organization by Resolution MEPC 110(49)"

      10 Gudze, M.T., "Operational based corrosion analysis in naval ships" 50 (50): 3296-3307, 2008

      11 Paik, J. K., "Modified Paik-Mansour formula for ultimate strength calculations of ship hulls" 2011

      12 Paik, J. K., "Methods for ultimate limit state assessment of ships and shipshipped offshore structures : Part I(unstiffened panels), Part II(stiffened panels)and Part III(hull girders)" 35 (35): 261-286, 2008

      13 ISO, "International standard ISO 18072-1, Ships and marine technology – Ship structures, Part 1: General requirements for their limit state assessment"

      14 DNV, "Fatigue Assessment of Ship Structures" 2010

      15 Melchers, R.E., "Estimation of models for durability of epoxy coatings in water ballast tanks" 1 (1): 61-69, 2006

      16 백점기, "Condition Assessment of Aged Structures" CRC Press 2008

      17 IACS, "Common structural rules for double hull oil tankers" International Association of Classification Societies 2006

      18 IACS, "Common structural rules for bulk carriers" International Association of Classification Societies 2006

      19 Lotsberg, I., "Assessment of fatigue capacity in the new bulkcarrier and tanker rules" 19 : 83-96, 2006

      20 Kang, S. W., "An experimental study on the fatigue strength assessment of longi-webconnections in ship structures using structural stress" 36 : 1067-1072, 2010

      21 Paik, J. K., "A time-dependent corrosion wastage model for the structures of single/double hull tankers and FSOs/FPSOs" 40 (40): 201-217, 2003

      22 Paik, J. K., "A time-dependent corrosion wastage model for seawater ballast tanks of ships" 46 : 471-486, 2004

      23 Paik, J. K., "A time-dependent corrosion wastage model for bulk carrier structures" 145 (145): 61-87, 2003

      24 Paik, J.K., "A simple formulation for predicting the ultimate strength of ships" 1 (1): 52-62, 1995

      25 Poutiainen, I., "A fatigue assessment method based on weld stress" 28 : 1037-1046, 2006

      26 ALPS/HULL, "A computer program for progressive collapse analysis of ship hulls" Advanced Technology Center, DRS C3 Systems, Inc.,

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      2011-01-01 평가 등재학술지 유지 (등재유지) KCI등재
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      2007-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2005-06-16 학회명변경 영문명 : Ternational Association Of Structural Engineering And Mechanics -> International Association of Structural Engineering And Mechanics KCI등재
      2005-05-26 학술지명변경 한글명 : 국제구조계산역학지 -> Structural Engineering and Mechanics, An Int'l Journal KCI등재
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 1.12 0.62 0.94
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.79 0.68 0.453 0.33
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