Interaction between recrystallization and helium behavior in cold-rolled nickel

•He+ irradiation retards grain boundary formation and migration in cold-rolled Ni.•Recrystallization facilitates nucleation and coarsening of helium bubbles/voids.•He+ irradiation and recrystallization jointly cause severe swelling and hardening. Introducing a high density of defect sinks is a promi...

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Veröffentlicht in:	Materials letters 2019-09, Vol.250, p.68-71
Hauptverfasser:	Lin, Weitong, Liu, Shaofei, Chen, Da, Dang, Chaoqun, Niu, Huan, Zhao, Yilu, Han, Bin, Lu, Yang, Kai, Ji-Jung
Format:	Artikel
Sprache:	eng
Schlagworte:	Coarsening Cold rolling Dislocations Evolution Grain boundary migration Grain growth Hardening Helium Helium bubbles High temperature Irradiation Materials science Microstructure Nickel Nuclear materials Recrystallization Voids
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container_title	Materials letters
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creator	Lin, Weitong Liu, Shaofei Chen, Da Dang, Chaoqun Niu, Huan Zhao, Yilu Han, Bin Lu, Yang Kai, Ji-Jung
description	•He+ irradiation retards grain boundary formation and migration in cold-rolled Ni.•Recrystallization facilitates nucleation and coarsening of helium bubbles/voids.•He+ irradiation and recrystallization jointly cause severe swelling and hardening. Introducing a high density of defect sinks is a promising approach to relieve helium embrittlement in structural alloys for future fusion energy applications. However, the interaction between preset defect evolution and helium behavior at elevated temperatures, which could lead to dramatic changes of microstructure and properties of alloys, is still not well understood. In this contribution, cold-rolled nickel subjected to He+ irradiation at 500 °C was investigated to uncover the interaction process and the consequent microstructure evolution. Our experimental results revealed that during the initial period partial recrystallization and grain growth were unaffected by He+ irradiation, leading to the formation of coarse grains. With the increasing of helium concentration, helium bubbles retarded dislocation rearrangement and grain boundary migration in the remaining recrystallization areas, and meanwhile the stabilized grain boundaries facilitated helium bubble coarsening and bubble-to-void transformation. Such interaction ultimately led to the retention of fine grains with severe swelling and hardening.
doi_str_mv	10.1016/j.matlet.2019.04.111
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Introducing a high density of defect sinks is a promising approach to relieve helium embrittlement in structural alloys for future fusion energy applications. However, the interaction between preset defect evolution and helium behavior at elevated temperatures, which could lead to dramatic changes of microstructure and properties of alloys, is still not well understood. In this contribution, cold-rolled nickel subjected to He+ irradiation at 500 °C was investigated to uncover the interaction process and the consequent microstructure evolution. Our experimental results revealed that during the initial period partial recrystallization and grain growth were unaffected by He+ irradiation, leading to the formation of coarse grains. With the increasing of helium concentration, helium bubbles retarded dislocation rearrangement and grain boundary migration in the remaining recrystallization areas, and meanwhile the stabilized grain boundaries facilitated helium bubble coarsening and bubble-to-void transformation. 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With the increasing of helium concentration, helium bubbles retarded dislocation rearrangement and grain boundary migration in the remaining recrystallization areas, and meanwhile the stabilized grain boundaries facilitated helium bubble coarsening and bubble-to-void transformation. 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subjects	Coarsening Cold rolling Dislocations Evolution Grain boundary migration Grain growth Hardening Helium Helium bubbles High temperature Irradiation Materials science Microstructure Nickel Nuclear materials Recrystallization Voids
title	Interaction between recrystallization and helium behavior in cold-rolled nickel
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