论文信息 - Fatigue damage estimation in non-linear systems using a combination of Monte Carlo simulation and the First Order Reliability Method

Fatigue damage estimation in non-linear systems using a combination of Monte Carlo simulation and the First Order Reliability Method

Abstract For non-linear systems the estimation of fatigue damage under stochastic loadings can be rather time-consuming. Usually Monte Carlo simulation (MCS) is applied, but the coefficient-of-variation (COV) can be large if only a small set of simulations can be done due to otherwise excessive CPU time. The reason is that the fatigue damage estimation is very sensitive to the largest values from the simulations. The paper suggests the additional use of the First Order Reliability Method (FORM) to get a better estimation of the tail in the distribution of the estimated fatigue damage and thereby reducing the COV. For a specific example dealing with stresses in a tendon in a tension leg platform the COV is thereby reduced by a factor of three.

Jørgen Juncher Jensen

[1] Preben Terndrup Pedersen,et al. Onboard monitoring of fatigue damage rates in the hull girder , 2011 .

[2] Ove Ditlevsen,et al. Model‐Correction‐Factor Method in Structural Reliability , 1994 .

[3] Jørgen Juncher Jensen,et al. Extreme response predictions for jack-up units in second order stochastic waves by FORM , 2006 .

[4] A. M. Hasofer,et al. Exact and Invariant Second-Moment Code Format , 1974 .

[5] Jørgen Juncher Jensen,et al. Stochastic procedures for extreme wave load predictions – Wave bending moment in ships , 2009 .

[6] Jørgen Juncher Jensen,et al. Extreme Value Predictions using Monte Carlo Simulations with Artificially Increased Load Spectrum. , 2011 .

[7] Alaa E. Mansour,et al. Extreme wave and wind response predictions , 2011 .

[8] Armen Der Kiureghian,et al. TAIL EQUIVALENT LINEARIZATION METHOD FOR NONLINEAR RANDOM VIBRATION , 2007 .

[9] Jørgen Juncher Jensen. Conditional Stochastic Processes Applied to Wave Load Predictions , 2015 .

[10] S J Maddox,et al. Chapter 1 – Fatigue design rules for welded steel joints , 2002 .

[11] Igor Rychlik,et al. NOTE ON CYCLE COUNTS IN IRREGULAR LOADS , 1993 .

[12] A. Kiureghian,et al. Optimization algorithms for structural reliability , 1991 .