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Main Authors: Verma, Amit, Chang, Yen-Ting, Charpagne, Marie, Bellon, Pascal, Averback, Robert S.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2602.12860
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author Verma, Amit
Chang, Yen-Ting
Charpagne, Marie
Bellon, Pascal
Averback, Robert S.
author_facet Verma, Amit
Chang, Yen-Ting
Charpagne, Marie
Bellon, Pascal
Averback, Robert S.
contents The interactions between chemical phase fields and structural defects play a key role in the properties of alloys. We illustrate the importance of these interactions in driven alloys, where defects are continuously being created, with particular focus on systems where radiation-induced segregation occurs. Specifically, we compare the microstructural evolution in undersaturated Ni-Si and Ni-Ge alloys during both 100 keV He and 2 MeV Ti irradiations. While the equilibrium phase diagrams of these systems are similar, and both systems show strong radiation-induced segregation, the evolving defect structures are remarkably different. Ni-Si reveals a high density of Frank loops, while Ni-Ge shows a complex array of dislocations. Moreover, a Ni3Ge precipitate shell is observed to coat He bubbles, while no segregation of Si is observed at such bubbles. We explain these differences in behaviors to solute drag by interstitial fluxes in Ni-Si vs solute drag by vacancy fluxes in Ni-Ge.
format Preprint
id arxiv_https___arxiv_org_abs_2602_12860
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The role of radiation-induced segregation in defect-phase formation in Ni-Ge and Ni-Si alloys
Verma, Amit
Chang, Yen-Ting
Charpagne, Marie
Bellon, Pascal
Averback, Robert S.
Materials Science
The interactions between chemical phase fields and structural defects play a key role in the properties of alloys. We illustrate the importance of these interactions in driven alloys, where defects are continuously being created, with particular focus on systems where radiation-induced segregation occurs. Specifically, we compare the microstructural evolution in undersaturated Ni-Si and Ni-Ge alloys during both 100 keV He and 2 MeV Ti irradiations. While the equilibrium phase diagrams of these systems are similar, and both systems show strong radiation-induced segregation, the evolving defect structures are remarkably different. Ni-Si reveals a high density of Frank loops, while Ni-Ge shows a complex array of dislocations. Moreover, a Ni3Ge precipitate shell is observed to coat He bubbles, while no segregation of Si is observed at such bubbles. We explain these differences in behaviors to solute drag by interstitial fluxes in Ni-Si vs solute drag by vacancy fluxes in Ni-Ge.
title The role of radiation-induced segregation in defect-phase formation in Ni-Ge and Ni-Si alloys
topic Materials Science
url https://arxiv.org/abs/2602.12860