Competition between microstructural factors affecting growth of abnormally large grains in thin Cu foils

Jing Guo, Chunlei Zhang, Dana Zöllner, Xin Li, Guilin Wu, Tianlin Huang, Wolfgang Pantleon, Xiaoxu Huang*, Dorte Juul Jensen*

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

Abstract

Grain boundary types and local boundary curvatures are generally considered to be important microstructural factors controlling grain boundary migration during grain growth. In this work, grain growth in thin copper foils is studied during annealing at a temperature of 1040 °C near the melting point by ex-situ experiments and Monte Carlo simulations. Few grains, stimulated by slight deformation at the sample edge, are observed to grow abnormally into the cube-oriented recrystallized microstructure with columnar grains spanning the foil thickness. The grain boundaries of these abnormally growing grains and the grain sizes in the adjacent polycrystalline recrystallized regions are analyzed. The experimental results suggest that spatial heterogeneities in the distribution of small recrystallized grains have a significant effect on the migrating boundaries. Potts model simulations confirm that grain boundary segments with small grains in front are more likely to migrate than segments facing coarser grains. The simulations also demonstrate the importance of grain morphology. Altogether, this work highlights the effects of a heterogeneous recrystallized microstructure on abnormal grain growth in thin foil samples.
Original languageEnglish
Article number 120339
JournalActa Materialia
Volume281
Number of pages12
ISSN1359-6454
DOIs
Publication statusPublished - 2024

Keywords

  • Abnormal grain growth
  • Cu foil
  • Ex-situ EBSD
  • Grain boundary migration
  • Monte Carlo simulation

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