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Revealing Grain Boundary Sliding from Textures of a Deformed Nanocrystalline Pd–Au Alloy

Materials 2018 16 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 30 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Yajun Zhao, László S. Tóth, Yajun Zhao, Christian Braun, Werner Skrotzki Yajun Zhao, Yajun Zhao, László S. Tóth, Werner Skrotzki Werner Skrotzki Aurimas Pukenas, László S. Tóth, Aurimas Pukenas, Yajun Zhao, Christian Braun, Yajun Zhao, Werner Skrotzki Aurimas Pukenas, Aurimas Pukenas, R. Birringer, R. Birringer, R. Birringer, R. Birringer, Christian Braun, László S. Tóth, R. Birringer, R. Birringer, László S. Tóth, Werner Skrotzki

Summary

This materials science paper presents a model for understanding grain boundary sliding in nanocrystalline metals using crystallographic texture analysis. It is a technical metallurgy study with no direct connection to microplastics or environmental health.

Employing a recent modeling scheme for grain boundary sliding [Zhao et al. <i>Adv. Eng. Mater.</i><b>2017</b>, doi:10.1002/adem.201700212], crystallographic textures were simulated for nanocrystalline fcc metals deformed in shear compression. It is shown that, as grain boundary sliding increases, the texture strength decreases while the signature of the texture type remains the same. Grain boundary sliding affects the texture components differently with respect to intensity and angular position. A comparison of a simulation and an experiment on a Pd-10 atom % Au alloy with a 15 nm grain size reveals that, at room temperature, the predominant deformation mode is grain boundary sliding contributing to strain by about 60%.

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