Add to ORKGThe microstructure of an internally oxidized CuMg alloy has been examined by means of high-resolution transmission electron microscopy. A new orientational relationship, 21 [211], has been determined by selected-area electron diffraction. The dislocation network for such an orientational relationship, calculated using the near coincident site lattice theory, is a parallel array of edge dislocations with Burgers vectors of the type 1/21[1 0 2 1 ], 1/21[1 4 2], and 1/21[4 5 8 ]. © 2001 Elsevier Science B.V. All rights reserved
How the core structure of an interface dislocation network depends on both misfit and bond strength ...
How the core structure of an interface dislocation network depends on both misfit and bond strength ...
Misfit dislocation networks at Cu-MgO and Cu-MnO {111}metal//{111} oxide interfaces were studied wit...
The microstructure of an internally oxidized CuMg alloy has been examined by means of high-resolutio...
Orientation relations between MgO precipitates and Cu matrix have been characterized by electron dif...
When metal and oxide with dissimilar structure joint together, the misfit dislocation will be introd...
Epitaxial Cu(001) layers were deposited on MgO(001) substrates by magnetron sputtering and the atomi...
37th International Conference on Metallurgical Coatings and Thin Films, San Diego, CA, APR 26-30, 20...
High Resolution Transmission Electron Microscope (HRTEM) images of an interface between MgO and Cu i...
Parallel close-packed plane interfaces between MnO or Mn3O4 and Ag or Cu are studied using high reso...
How the core structure of an interface dislocation network depends on both misfit and bond strength ...
How the core structure of an interface dislocation network depends on both misfit and bond strength ...
Misfit dislocation networks at Cu-MgO and Cu-MnO {111}metal//{111} oxide interfaces were studied wit...
The microstructure of an internally oxidized CuMg alloy has been examined by means of high-resolutio...
Orientation relations between MgO precipitates and Cu matrix have been characterized by electron dif...
When metal and oxide with dissimilar structure joint together, the misfit dislocation will be introd...
Epitaxial Cu(001) layers were deposited on MgO(001) substrates by magnetron sputtering and the atomi...
37th International Conference on Metallurgical Coatings and Thin Films, San Diego, CA, APR 26-30, 20...
High Resolution Transmission Electron Microscope (HRTEM) images of an interface between MgO and Cu i...
Parallel close-packed plane interfaces between MnO or Mn3O4 and Ag or Cu are studied using high reso...
How the core structure of an interface dislocation network depends on both misfit and bond strength ...
How the core structure of an interface dislocation network depends on both misfit and bond strength ...
Misfit dislocation networks at Cu-MgO and Cu-MnO {111}metal//{111} oxide interfaces were studied wit...