Distribution of Dislocations in Germanium Single Crystals during Plastic Deformation
スポンサーリンク
概要
- 論文の詳細を見る
Dislocation configurations in germanium single crystals developed during tensile deformation at 600℃ were frozen in by the rapid cooling of deformed crystals under load and investigated with etch pit technique. Distribution patterns of dislocation etch pits at various deformation stages were observed on two kinds of surfaces which were cut out parallel to the cross slip plane (111) and to the primary slip plane (111). Peculiar distribution patterns of etch pits were developed during stage I, namely, the stripe on the (111) surface and the dense zone on the (111) surface. Stripe patterns of dislocation etch pits were also observed on the surfaces cut out parallel to the critical slip plane (111) and to the conjugate slip plane (111). It was found that the stripes on (111), (111), and (111) surfaces and the dense zone on (111) surface were interrelated each other. Characteristics of the distribution pattern of etch pits were compared with those observed on f.c.c. metals.
- 社団法人日本物理学会の論文
- 1969-05-05
著者
-
Sumino Koji
The Research Institute For Iron Steel And Other Metals
-
Kojima Ken-ichi
The Research Institute For Iron Steel And Other Metals
-
Kojima Ken-ichi
The Research Institute For Iron Steel And Other Metals Tohoku University
-
Kojima Ken-ichi
The Research Institute for Iron, Steel and Other Metals, Tohoku University
関連論文
- Nitrogen-Oxygen Complexes as Shallow Donors in Silicon Crystals
- Effect of Uniaxial Stress on the Photoluminescence from Plastically Deformed Silicon
- Radiative Recombination on Dislocations in Silicon Crystals
- Deep Defect Levels in Plastically Deformed GaAs
- Plastic Deformation of Foil Copper Crystals. II : Electron Microscopical Study
- Plastic Deformation of Foil Copper Crystals. I : Study of Work-Hardening Behavior
- Work-hardening of Foil Crystals of Copper
- Distribution Patterns of Strain and Dislocations Around Indented Areas in Germanium Crystals as Observed by X-Ray Topography
- Microdynamics of Dislocations in Plastic Deformation of Germanium Crystals
- Temperature Dependence of Hardness and Dislocation Distribution Pattern Formed by Indentation in Germanium Crystals
- Strain-Rate and Temperature Dependence of Mechanical Behaviour in Germanium Crystals
- Distribution of Dislocations in Germanium Single Crystals during Plastic Deformation
- The Origin of the Difference in the Mechanical Strengths of Czochralski-Grown Silicon and Float-Zone-Grown Silicon
- Acceptors in n-Type Silicon Crystals Induced by Plastic Deformation
- Difference in the Mechanical Strengths of Dislocation-Free Crystals of Czochralski Silicon and Float-Zone Silicon
- Mechanical Behavior of Czochralski-Silicon Crystals as Affected by Precipitation and Dissolution of Oxygen Atoms
- Oxygen Donors Developed around Dislocations in Silicon
- Mechanical Strength of Oxygen-doped Float-Zone Silicon Crystals
- Distribution of Dislocations in Germanium Single Crystals during Plastic Deformation
- Interaction between Dislocations and Non-Radiative Recombination Centers in GaAs
- Interaction of Dislocation with Atomic Order in Solid Solutions
- Role of Carbon in the Strengthening of Silicon Crystals
- HVEM Structure Images of Extended 60°- and Screw Dislocations in Silicon
- Anisotropy in the Hardness on (111) and (1^^-1^^-1^^-) Surfaces in InSb
- Dislocation Loops in an InSb Crystal
- Dislocation Configuration during Incubation Period of Creep in Germanium Crystals
- Effect of Dislocations on the Low Temperature Thermal Conductivity in Germanium
- Easy Operation of Dislocation Sources in the Surface Region of Crystal during Plastic Deformation
- Development of Dislocation Structure and Its Correlation with Slip Band Distribution in Germanium Crystals