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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Environmentally Assisted Cracking: Theory and Practice

Presentation Title

An Inverse Analysis of the Fatigue Crack Process Zone From Far Field Measurements

Author(s)

Yanfei Gao, Huck Beng Chew

On-Site Speaker (Planned)

Yanfei Gao

Abstract Scope

A weak interface model with a predefined traction-separation relationship (denoted as the cohesive zone law), when embedded in a bulk solid, is oftentimes adopted to simulate the crack advancement and thus determine the crack resistance under either monotonic or cyclic loading conditions. To-date, various types of loading-unloading irreversibility and hysteresis are only presumed in the cohesive zone law for fatigue crack growth, but without any direct determination from experimental measurements. Using a fine-grained Mg alloy and synchrotron X-ray diffraction (S-XRD) measurements with a sub-millimeter beam, in situ lattice strain mapping can be obtained. We then develop an inverse analysis to extract the fatigue-crack cohesive zone which turns out to exhibit a bilinear unloading and reloading behavior. Distinctively different than all prior works, this particular form suggests the origin of irreversibility be primarily from crack-surface oxidation and the hysteresis from dislocation plasticity in surrounding grains.

Proceedings Inclusion?

Planned:

Keywords

Mechanical Properties, Modeling and Simulation,

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