C
Chuanshi Hong
Researcher at Technical University of Denmark
Publications - 29
Citations - 460
Chuanshi Hong is an academic researcher from Technical University of Denmark. The author has contributed to research in topics: Dislocation & Martensite. The author has an hindex of 6, co-authored 26 publications receiving 368 citations. Previous affiliations of Chuanshi Hong include Chinese Academy of Sciences.
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Nucleation and thickening of shear bands in nano-scale twin/matrix lamellae of a Cu–Al alloy processed by dynamic plastic deformation
TL;DR: In this article, microstructural evolution associated with the shear banding in nano-scale twin/matrix (T/M) lamellae of a Cu-Al alloy processed by means of dynamic plastic deformation was investigated using transmission electron microscopy (TEM) and high-resolution TEM.
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Twin stability in highly nanotwinned Cu under compression, torsion and tension
Andrea M. Hodge,Timothy A. Furnish,Carla J Shute,Y. Liao,Xiaoxu Huang,Chuanshi Hong,Yuntian Zhu,Troy W. Barbee,J.R. Weertman +8 more
TL;DR: In this paper, the deformation-induced microstructural changes under tension, compression, tension-tension fatigue and torsion were qualitatively compared in order to assess twin stability as a function of the loading direction and stress.
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Grain orientation dependence of deformation twinning in pure Cu subjected to dynamic plastic deformation
TL;DR: In this article, a clear grain orientation dependence of deformation twinning has been identified in coarse-grained copper subjected to dynamic plastic deformation, which can be explained in terms of a Schmid factor analysis.
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Dislocation content of geometrically necessary boundaries aligned with slip planes in rolled aluminium
TL;DR: In this article, the dislocations in eight slip-plane-aligned geometrically necessary boundaries (GNBs) in three grains of near 45° ND rotated cube orientation in lightly rolled pure aluminium are characterized in great detail using transmission electron microscopy.
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Orientation dependence of the deformation microstructure in compressed aluminum
TL;DR: In this paper, the orientation dependence of the deformation microstructure has been investigated in aluminum compressed to 20% reduction, and the dislocation boundaries formed can be classified, as for tension, into one of three types: dislocation cells (Type 2), and extended planar boundaries near (type 1) or not near (Type 3) a {1.1/1} trace.