What question did this study set out to answer?

This analysis aims to understand the growth behavior of multiple cracks in stainless steel plates under cyclic loading.

March 26, 2026Open Access

Fatigue crack growth analysis of multiple cracks in a plate

Key Points

This analysis aims to understand the growth behavior of multiple cracks in stainless steel plates under cyclic loading.
Conducted finite element method (FEM) analyses for stainless steel plates with multiple through-wall cracks.
Matched specimen geometry and initial cracks to fatigue crack growth tests.
Examined stress distribution and propagation behaviors of cracks under different cyclic stress magnitudes.
Two cracks initially grew parallel, then changed direction and coalesced, matching experimental results.
Lower cyclic stress led to different crack propagation paths and coalescence phenomena.
Stress at crack tips exceeded yield stress during proximity, indicating potential for plastic collapse rather than fatigue failure.

Abstract

FEM analyses were performed for stainless steel plates with multiple through-wall cracks. The geometry of the test specimens and the initial cracks were matched to those of a separately performed fatigue crack growth tests. The analytical results showed that the two cracks grew parallel to each other, then changed direction and finally coalesced. It is qualitatively agreement with experimental results. In addition, other simulation results, with lower magnitude of cyclic stress, showed that different propagation passes and different phenomena of coalesce. From the von Mises stress distribution of each analysis, it was found that the stress exceeded the yield stress when the crack tips were close to each other. It was suggested that the specimen with cracks were ultimately collapsed by plastic collapse rather than fatigue failure.

Fatigue crack growth analysis of multiple cracks in a plate

Key Points

Abstract

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