Reversible twinning in pure aluminum

B. Q. Li; M. L. Sui; B. Li; E. Ma; S. X. Mao

doi:10.1103/PhysRevLett.102.205504

Reversible twinning in pure aluminum

B. Q. Li
, M. L. Sui
, B. Li
, E. Ma
, S. X. Mao

CAS - Institute of Metal Research
Johns Hopkins University
University of Pittsburgh

Research output: Contribution to journal › Article › peer-review

143 Scopus citations

Abstract

Twinning in metals is normally a permanent plastic deformation mechanism. Here we report reversible twinning in high stacking fault energy (SFE) aluminum. Twinning and spontaneous detwinning at the crack tip have been captured in situ during tensile straining under a transmission electron microscope. Both the in situ observation and the molecular dynamics simulations reveal a two-stage detwinning process. The high propensity for detwinning is due to the high SFE and the low frictional forces against the detwinning partial dislocations in Al. This discovery of reversible twinning has implications for the deformation of other high SFE materials.

Original language	English
Article number	205504
Journal	Physical Review Letters
Volume	102
Issue number	20
DOIs	https://doi.org/10.1103/PhysRevLett.102.205504
State	Published - 18 May 2009
Externally published	Yes

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10.1103/PhysRevLett.102.205504

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abstract = "Twinning in metals is normally a permanent plastic deformation mechanism. Here we report reversible twinning in high stacking fault energy (SFE) aluminum. Twinning and spontaneous detwinning at the crack tip have been captured in situ during tensile straining under a transmission electron microscope. Both the in situ observation and the molecular dynamics simulations reveal a two-stage detwinning process. The high propensity for detwinning is due to the high SFE and the low frictional forces against the detwinning partial dislocations in Al. This discovery of reversible twinning has implications for the deformation of other high SFE materials.",

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AU - Li, B. Q.

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AU - Mao, S. X.

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Y1 - 2009/5/18

N2 - Twinning in metals is normally a permanent plastic deformation mechanism. Here we report reversible twinning in high stacking fault energy (SFE) aluminum. Twinning and spontaneous detwinning at the crack tip have been captured in situ during tensile straining under a transmission electron microscope. Both the in situ observation and the molecular dynamics simulations reveal a two-stage detwinning process. The high propensity for detwinning is due to the high SFE and the low frictional forces against the detwinning partial dislocations in Al. This discovery of reversible twinning has implications for the deformation of other high SFE materials.

AB - Twinning in metals is normally a permanent plastic deformation mechanism. Here we report reversible twinning in high stacking fault energy (SFE) aluminum. Twinning and spontaneous detwinning at the crack tip have been captured in situ during tensile straining under a transmission electron microscope. Both the in situ observation and the molecular dynamics simulations reveal a two-stage detwinning process. The high propensity for detwinning is due to the high SFE and the low frictional forces against the detwinning partial dislocations in Al. This discovery of reversible twinning has implications for the deformation of other high SFE materials.

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DO - 10.1103/PhysRevLett.102.205504

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Reversible twinning in pure aluminum

Abstract

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