AI Article Synopsis
- The study highlights the lack of attention given to numerical simulations of fatigue crack growth in welded joints, particularly considering material variability within the weld itself.
- It presents several case studies focusing on high-strength low-alloyed steel welded joints, utilizing the extended finite element method (XFEM) with software like ABAQUS and ANSYS to model crack behavior.
- Innovative procedures were introduced to account for different fatigue properties in various zones of the welded joint, aiming for more accurate evaluations of fatigue life compared to treating the weld as a uniform material.
Article Abstract
Numerical simulation of fatigue crack growth in welded joints is not well represented in the literature, especially from the point of view of material heterogeneity in a welded joint. Thus, several case studies are presented here, including some focusing on fracture, presented by two case studies of mismatched high-strength low-alloyed (HSLA) steel welded joints, with cracks in the heat affected zone (HAZ) or in weld metal (WM). For fatigue crack growth, the extended finite element method FEM (XFEM) was used, built in ABAQUS and ANSYS R19.2, as presented by four case studies, two of them without modelling different properties of the welded joint (WJ). In the first one, fatigue crack growth (FCG) in integral (welded) wing spar was simulated by XFEM to show that its path is partly along welded joints and provides a significantly longer fatigue life than riveted spars of the same geometry. In the second one, an integral skin-stringer panel, produced by means of laser beam welding (LBW), was analysed by XFEM in its usual form with stringers and additional welded clips. It was shown that the effect of the welded joint is not significant. In the remaining two papers, different zones in welded joints (base metal-BM, WM, and HAZ) were represented by different coefficients of the Paris law to simulate different resistances to FCG in the two cases; one welded joint was made of high-strength low-alloyed steel (P460NL1) and the other one of armour steel (Protac 500). Since neither ABAQUS nor ANSYS provide an option for defining different fatigue properties in different zones of the WJ, an innovative procedure was introduced and applied to simulate fatigue crack growth through different zones of the WJ and evaluate fatigue life more precisely than if the WJ is treated as a homogeneous material.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11595903 | PMC |
| http://dx.doi.org/10.3390/ma17225531 | DOI Listing |
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