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Quantification of dislocation structures from anelastic deformation behaviour

Acta Materialia 2016 76 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 35 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Zaloa Arechabaleta, Zaloa Arechabaleta, Zaloa Arechabaleta, Zaloa Arechabaleta, Peter van Liempt, Peter van Liempt, Peter van Liempt, Peter van Liempt, Jilt Sietsma Jilt Sietsma Jilt Sietsma Jilt Sietsma Jilt Sietsma

Summary

This materials science study analyzes the pre-yield deformation behavior of iron and low-alloy steel, modeling how dislocations move reversibly before permanent plastic deformation begins. The research is relevant to structural materials engineering but has no connection to microplastics or environmental health.

The pre-yield deformation behaviour (i.e., at stresses below the yield stress) of two materials, pure iron and a low-alloy steel, and its anelastic nature are analysed at room temperature, before and after the dislocation structures are varied by plastic deformation. It is shown, based on tensile experiments, that this behaviour can be explained by limited reversible glide of dislocations without essential changes in the dislocation structure. Moreover, a physically-based model that characterises the dislocation structure by two variables, the dislocation density and the effective dislocation segment length, is used to quantitatively describe this deformation behaviour. The model validity is further evaluated by comparison with dislocation densities from X-Ray Diffraction measurements.

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