Journal
SCRIPTA MATERIALIA
Volume 221, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.scriptamat.2022.114956
Keywords
In situ TEM; Sessile disconnection; Twin boundary; Molecular dynamics; Deformation
Categories
Funding
- Natural Science Foundation of Jiangsu Province [BK20210352, BK20200503]
- National Natural Science Foundation of China [51905268, 52101142]
- China Post- doctoral Science Foundation [2021M691581, 2021M691583]
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This study investigates the evolution of sessile disconnections on twin boundaries through experimental, analytical, and simulation approaches. The results show that sessile disconnections can serve as nucleation sites for twinning dislocations and lead to the migration of twin boundaries. Additionally, twin-twin intersections can transform gliding lattice dislocations into twinning dislocations.
Sessile disconnections on twin boundaries (TBs) are special interfacial defects which can not glide conservatively along TBs, playing an important role in plastic deformation of twin-containing metals. However, the detailed aspects of the evolution of sessile disconnections on TBs under stress are not yet fully understood, while the direct atomic-scale experimental evidence remains rare. By integrating the in situ transmission electron microscope tensile test, multichromatic complex analysis method and molecular dynamics simulation, we studied the evo-lution of sessile disconnections on TBs. Dislocation reaction analysis shows that sessile disconnections can serve as effective nucleation sites of twinning dislocations (TDs) which lead to the migration of TBs. Moreover, twin -twin intersections can also act as sinks for gliding lattice dislocations by transforming lattice dislocations into TDs along different twining systems. This work enriches the knowledge of the atomic-scale deformation mechanism of twin-containing metals.
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