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Autori principali: Tang, Jing, Yan, Runlu, Zhang, Donglan, Schnitzer, Ronald, Romaner, Lorenz, Kapp, Marlene, Salvalaglio, Marco, Renk, Oliver
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2604.16740
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author Tang, Jing
Yan, Runlu
Zhang, Donglan
Schnitzer, Ronald
Romaner, Lorenz
Kapp, Marlene
Salvalaglio, Marco
Renk, Oliver
author_facet Tang, Jing
Yan, Runlu
Zhang, Donglan
Schnitzer, Ronald
Romaner, Lorenz
Kapp, Marlene
Salvalaglio, Marco
Renk, Oliver
contents Grain growth fundamentally shapes the microstructure of crystalline materials upon annealing, affecting their overall mechanical and functional properties. Recently, it has been rationalized that grain growth in polycrystals does not result solely from weighted curvature flow, but elastic effects (intrinsic stress) arised from shear coupling also need to be taken into account. We characterize and examine the effect of free surfaces on grain growth kinetics of high-purity, bulk polycrystalline nickel. By analyzing the microstructural evolution on cross sections of 1 mm thick specimens from the surface to the interior, as well as through in-plane investigations on specimens with varying thickness (1 mm, 40 $μ$m, and 10 $μ$m), an intrinsic grain-size gradient was identified, characterized by a gradual increase in grain size towards the interior. Interestingly, this grading was not restricted to the very surface but continued to depths of five to ten layers of grains, where effects from thermal grooves are considered negligible. We demonstrate that this behavior is significantly affected by elastic relaxation at the free surface, which alters the internal stress fields generated by shear-coupled grain boundary migration. These findings emphasize the relevance of free surfaces to the microstructural evolution of polycrystal.
format Preprint
id arxiv_https___arxiv_org_abs_2604_16740
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Intrinsic grain-size gradients upon grain growth near a free surface
Tang, Jing
Yan, Runlu
Zhang, Donglan
Schnitzer, Ronald
Romaner, Lorenz
Kapp, Marlene
Salvalaglio, Marco
Renk, Oliver
Materials Science
Grain growth fundamentally shapes the microstructure of crystalline materials upon annealing, affecting their overall mechanical and functional properties. Recently, it has been rationalized that grain growth in polycrystals does not result solely from weighted curvature flow, but elastic effects (intrinsic stress) arised from shear coupling also need to be taken into account. We characterize and examine the effect of free surfaces on grain growth kinetics of high-purity, bulk polycrystalline nickel. By analyzing the microstructural evolution on cross sections of 1 mm thick specimens from the surface to the interior, as well as through in-plane investigations on specimens with varying thickness (1 mm, 40 $μ$m, and 10 $μ$m), an intrinsic grain-size gradient was identified, characterized by a gradual increase in grain size towards the interior. Interestingly, this grading was not restricted to the very surface but continued to depths of five to ten layers of grains, where effects from thermal grooves are considered negligible. We demonstrate that this behavior is significantly affected by elastic relaxation at the free surface, which alters the internal stress fields generated by shear-coupled grain boundary migration. These findings emphasize the relevance of free surfaces to the microstructural evolution of polycrystal.
title Intrinsic grain-size gradients upon grain growth near a free surface
topic Materials Science
url https://arxiv.org/abs/2604.16740