Transition from a punched-out dislocation to a slip dislocation revealed by electron tomography | Zendy

Masaki Tanaka | Zendy; Grace S. Liu | Zendy; Tomonobu Kishida | Zendy; Kenji Higashida | Zendy; I.M. Robertson | Zendy

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Transition from a punched-out dislocation to a slip dislocation revealed by electron tomography

Author(s) -

Masaki Tanaka,

Grace S. Liu,

Tomonobu Kishida,

Kenji Higashida,

I.M. Robertson

Publication year - 2010

Publication title -

journal of materials research/pratt's guide to venture capital sources

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.788

H-Index - 148

eISSN - 0884-2914

pISSN - 0884-1616

DOI - 10.1557/jmr.2010.0308

Subject(s) - materials science , dislocation , crystallography , softening , slip (aerodynamics) , oxide , electron tomography , tomography , condensed matter physics , composite material , scanning electron microscope , metallurgy , scanning transmission electron microscopy , optics , thermodynamics , chemistry , physics

Punched-out dislocations emitted from an octahedral oxide precipitate in single-crystal silicon were investigated using high-voltage electron microscopy and tomography (HVEM-tomography) to understand the mechanism of softening caused by the oxide precipitates. In the present paper, direct evidence of the transition of a punched-out prismatic dislocation loop to a slip dislocation is presented. The punched-out dislocation grows into a large matrix dislocation loop by absorption of interstitial atoms, which were produced during oxide precipitation.

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