Multi‐scale experimental study on fatigue damage behaviour and its effect on structural nonlinear response

Abstract: Experimental analyses on the structural response caused by local fatigue damage accumulation in welded details are accomplished to perform failure process and nonlinear effect analysis at different structural levels. The experiment is carried out by using welded compact tension (CT) specimens and a scaled truss specimen, and all of them have a notch at the weld toe to facilitate damage initiation. Cyclic loads are applied to those specimens to generate accumulative fatigue damage, respectively. The process of … Show more

“…The maximum error is 4.79 per cent for equivalent plastic strain and 9.90 per cent for damage scalar. The increasing of the nonlinear responses becomes significant after the onset of damage, which has also been observed in experiment (He et al, 2013). This is because the material damage can accelerate the deterioration of material property.…”

A multiscale computational method with inheriting simulation of moving trans-scale boundary for damage-induced structural deterioration

“…The maximum error is 4.79 per cent for equivalent plastic strain and 9.90 per cent for damage scalar. The increasing of the nonlinear responses becomes significant after the onset of damage, which has also been observed in experiment (He et al, 2013). This is because the material damage can accelerate the deterioration of material property.…”

A multiscale computational method with inheriting simulation of moving trans-scale boundary for damage-induced structural deterioration

Digital Prognosis of Fatigue Residual Life of Lightweight Metallic Materials

Minimal Neural Networks for Real-Time Online Nonlinear System Identification