완전 통계적법에 의한 부유식 해양구조물의 피로강도 평가 및 조선소 개발사례

Fully Stochastic Fatigue Analysis for Offshore Floaters and : Based on Shipyard Development and Practices

  • 정준모 (현대중공업 해양사업본부 기본설계부) ;
  • 윤기영 (현대중공업 해양사업본부 기본설계부) ;
  • 정장현 (현대중공업 해양사업본부 기본설계부) ;
  • 추명훈 (현대중공업 해양사업본부 기본설계부)
  • 발행 : 2008.03.26

초록

키워드

참고문헌

  1. Bannatine, J.A., Comer, J.J. and Handrock, J.L. (1990), 'Fundamentals of Metal Fatigue Analysis', Prentice Hall
  2. Dean, R.G., and Dalrymple, R.A. (1991), 'Water Wave Mechanics for Engineers and Scientists', Prentice Hall
  3. Bergan, P.G. and Lotsberg, I. (2004), 'Advances in Fatigue Assessment of FPSOs', Proc. OMAE-FPSO'04-0012
  4. DNV, 1999, 'ExxonMobil Development Company-FPSO Fatigue Methodology Specification', Report No. 99-3503
  5. DNV, 2003, Fatigue Assessment of Ship Structures, Classification Notes No. 30.7
  6. DNV, 2005, Fatigue Design of Offshore Steel Structures, DNV-RP-C203
  7. DNV, 2006, Fatigue Methodology of Offshore Ships, DNV-RP-C206
  8. Fricke, W. (2002). 'Recommended Hot-Spot Analysis Procedure for Structural Details of Ships and FPSOs Based on Round-Robin FE Analyses', Int J Offshore Polar Eng, Vol.12, No.1, pp 40-47
  9. Lotsberg, I. (2006), 'Fatigue design of plated structures using finite element analysis', J. Ships and Offshore Structures, Vol. 1, pp 45-54 https://doi.org/10.1533/saos.2005.0006
  10. Ochi, M.K. and Hubble, E.N. (1976). On six-parameters wave Spectra, Proc. 15th Coastal Eng. Conf., Vol 1, pp 301-328
  11. Wang, X., Cheng, Z., Wirsching, P.H. and Sun, H., 'Fatigue design factors and Safety Level Implied in Fatigue Design of Offshore Structures', Proc. OMAE, pp 35-40
  12. Wirsching, P.H., Ortiz, K., and Chen, Y.N.(1987), 'Fracture Mechanics Fatigue Model in a Reliability Format', Proc. of OMAE, Vol.3, pp 331-337