Twinning is found to impart favorable mechanical,physical and chemical properties to nanostructured materials.Deformation twinning prevails in face-centered cubic(FCC)nanocrystalline materials upon loading.In FCC structures,the＜112＞{111)deformation twinning is traditionally believed to nucleate and grow through layer-by-layer emission of 1/6＜112＞Shockley partial dislocations on consecutive{111}planes.We report that deformation twinning is able to occur in crystalline(Fe,Nb)23Zr6 nanoparticles(NPs)that have a large Mn23Th6-type FCC structure with a Zr-octahedron as a motif.Based on direct atomic-scale observations,we discover a new zero-net-strain path for the＜112＞{111}deformation twin-ning in FCC structures.To form a[112]/(111)twin,for example,short(111)planes within two adjacent(111)plane layers in the repeated three-layer sequence of(111)planes are shear deformed continuously by a shear-force dipole along the[112]direction like a domino effect,whereas the other(111)plane in the repeated sequence remains intact.In addition,a loading criterion for deformation twinning of a FCC NP under uniaxial compression is proposed based on our observations.Our work here not only extends the fundamental understanding on deformation twinning in FCC structures,but also opens up studies of deformation behaviors in a class of Mn23Th6-type FCC materials.

Hengfei Gu;Chengze Liu;Fusen Yuan;Fuzhou Han;Yingdong Zhang;Muhammad Ali;Wenbin Guo;Jie Ren;Lifeng Zhang;Songquan Wu;Geping Li

Institute of Metal Research,Chinese Academy of Sciences,Shenyang 110016,China;University of Chinese Academy of Sciences,Beijing 100049,China;University of Science and Technology of China,Hefei 230026,China;Institute of Molecular Plus,Tianjin University,Tianjin 300072,China;School of Materials Science and Engineering,University of Shanghai for Science and Technology,Shanghai 200093,China

材料科学技术（英文版）

[1]Hengfei Gu;Chengze Liu;Fusen Yuan;Fuzhou Han;Yingdong Zhang;Muhammad Ali;Wenbin Guo;Jie Ren;Lifeng Zhang;Songquan Wu;Geping Li-.Deformation twinning in octahedron-based face-centered cubic metallic structures:Localized shear-force dipoles drive atomic displacements)[J].材料科学技术（英文版）,2022(31):116-126

23Zr6,Mn23Th6

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