Fatigue damage criteria classification, modelling developments and trends for welded joints in marine structures

Abstract: Fatigue is typically a governing limit state for marine structures. Welded joints are the weakest links in that respect. Physics involve several resistance dimensions, a range of scales and distinct contributions in different stages of the accumulative damage process. Fatigue damage criteria developed over time have been classified with respect to type of information, geometry, parameter and process zone including plane and life region annotations. The criteria are evaluated regarding model (in)capabilities, s… Show more

“…Since fatigue scaling requires both the peak value and gradient to be incorporated, the total weld notch stress distribution has been used to obtain the total weld notch stress intensity distribution. Turning an intact geometry parameter into a cracked geometry equivalent, the acquired damage criterion takes the complete distribution into account …”

“…For MCF and HCF, the far‐field structural response is predominantly elastic, explaining why typical fatigue strength criteria S are of the stress type. Involving the stress range S = Δ σ reflects the cyclic loading and response requirement to develop fatigue damage …”

“…range and ratio r lr = F min / F max = σ min / σ max , the ratio is not explicitly considered since the stress level in the notch affected region is assumed to be at yield magnitude because of the welding induced residual stress. Any small‐ and large‐scale specimen fatigue test result obtained at relatively low ratio has been translated to r lr ∼ 0.5 using a nominal mean stress correction . Exponential mean stress models have been developed in order to improve the life time estimates in case of relatively low stress range and high mean stress, e.g.…”

“…Generally speaking, a decreased life time estimate uncertainty is obtained because of reduced (strength) scatter. The structural response modelling time and local geometry and loading and response information increases on the other hand, increasing criterion complexity and effort …”

“…DNV‐GL) are available . Recently, the total stress concept has been developed, aiming to improve fatigue strength similarity with respect to weld notch stress distribution, weld notch stress intensity, weld notch affected micro‐crack and far field dominated macro‐crack growth as well as welded joint fatigue resistance. Complete and censored data have been used to establish one (family of damage tolerant engineering) joint fatigue resistance curve(s) for arc‐welded joints in aluminium marine structures.…”

Fatigue design of welded double‐sided T‐joints and double‐sided cruciform joints in steel marine structures: A total stress concept

“…Since fatigue scaling requires both the peak value and gradient to be incorporated, the total weld notch stress distribution has been used to obtain the total weld notch stress intensity distribution. Turning an intact geometry parameter into a cracked geometry equivalent, the acquired damage criterion takes the complete distribution into account …”

“…For MCF and HCF, the far‐field structural response is predominantly elastic, explaining why typical fatigue strength criteria S are of the stress type. Involving the stress range S = Δ σ reflects the cyclic loading and response requirement to develop fatigue damage …”

“…range and ratio r lr = F min / F max = σ min / σ max , the ratio is not explicitly considered since the stress level in the notch affected region is assumed to be at yield magnitude because of the welding induced residual stress. Any small‐ and large‐scale specimen fatigue test result obtained at relatively low ratio has been translated to r lr ∼ 0.5 using a nominal mean stress correction . Exponential mean stress models have been developed in order to improve the life time estimates in case of relatively low stress range and high mean stress, e.g.…”

“…Generally speaking, a decreased life time estimate uncertainty is obtained because of reduced (strength) scatter. The structural response modelling time and local geometry and loading and response information increases on the other hand, increasing criterion complexity and effort …”

“…DNV‐GL) are available . Recently, the total stress concept has been developed, aiming to improve fatigue strength similarity with respect to weld notch stress distribution, weld notch stress intensity, weld notch affected micro‐crack and far field dominated macro‐crack growth as well as welded joint fatigue resistance. Complete and censored data have been used to establish one (family of damage tolerant engineering) joint fatigue resistance curve(s) for arc‐welded joints in aluminium marine structures.…”

Fatigue design of welded double‐sided T‐joints and double‐sided cruciform joints in steel marine structures: A total stress concept

Dissimilar underwater wet welding of HSLA steels

Corrosion fatigue crack growth mechanisms in welded joints of marine steel structures