Dislocations in Pure Iron Foils Deformed by Bending
スポンサーリンク
概要
- 論文の詳細を見る
Dislocations in a thin section of a pure iron foil deformed by bending have been observed by transmission electron microscopy. The parallel dislocations up to several μ length or more, presumably intersecting but no degenerating dislocations, loops and half loops of dislocations are found. The average density of dislocations in a well annealed state and in a bent foil are, respectively, 10^6〜10^8/cm^2 or less and 10^11〜10^12/cm^2. The formation of dislocations due to the bending is concluded from the increase in the density of dislocations and from the stress present in the foil. The three-dimensional arrangement of dislocations in the specimen is proposed to interpret the results obtained. A simple method for the preparation of a thin foil is also developed.
- 社団法人日本物理学会の論文
- 1960-06-05
著者
-
Taneda Youji
Department Of Mathematics And Physics Defense Academy
-
Taneda Youji
Department Of Mathematics And Physics Defence Academy
-
YAMASHITA Tadayoshi
Department of Mathematics and Physics, Defense Academy
-
Yamashita Tadayoshi
Department Of Mathematics And Physics Defense Academy
-
Yamashita Tadayoshi
Department Of Mathematics And Physics Defence Academy
関連論文
- Magnetic Domain Walls in Zone Melted Iron Crystals as Observed by X-Ray Diffraction Topography
- Thermal Growth of Thin Oxide in Ge Films and Interfacial Bond Defects of Oxygen
- Dislocations in Pure Iron Foils Deformed by Bending
- Microstructures and Recrystallization of Cold-Rolled Single Crystals of Pure Iron
- Arrangement of Dislocations in Iron Crystals Stretched in Tension
- Observations of dislocations in White Tin Using High-Resolution Electron Microscopy : Condensed Matter
- A Deformation Twin Kinked at an Angle of 120°Observed in α-Iron
- Transmission Electron Microscopic Observations of Dislocations Resulting from Allotropic Transformation of Pure Iron
- An Arrangement of Boundary Dislocations in White Tin Observed by High-Resolution Electron Microscopy
- Elongated Dislocation Loops Parallel to Burgers Vector in Bent Ge and Si Crystals
- Magnetic Anisotropy in Connection with Rolling in the Course of Producing Single Crystals of Silicon Steel
- Direct Observation of Lomer Dislocation in Germanium Crystal
- Measurement of Seebeck Effect in Plastically Bent Germanium
- Elongated Dislocation Loops in Germanium Crystals Deformed in Compression