X-ray Diffraction Topographic Studies of Dislocations in Natural Large Ice Single Crystals
スポンサーリンク
概要
- 論文の詳細を見る
The method of X-ray diffraction topography was adopted to reveal the dislocation structure in natural, large ice single crystals which has been hitherto used for the extensive experiments of plastic deformation. The topographs show clear images of curved and straight dislocation lines lying on the basal planes of the crystal. Dislocation density is in the order of 10^4 cm^<-2> and Burgers vectors are (α/3)<1120> or c[0001]. In many cases, edge dislocations compose the small angle tilt boundaries of which tilt angle is less than 1° of arc. Size of the subgrains bordered with such boundaries is in the order of 1 mm or more and it differs very much from the size of mosaic blocks evaluated from primary and secondary extinctions of X-rays. Another characteristic feature is that screw dislocations of one Burgers vector are much less than those of other two equivalent Burgers vectors of (α/3)<1120> system.
- 社団法人応用物理学会の論文
- 1969-08-05
著者
-
Higashi Akira
Department Of Applied Physics Faculty Of Engineering Hokkaido University
-
Fukuda Akeharu
Department of Applied Physics Faculty of Engineering, Hokkaido University
-
Fukuda Akeharu
Department Of Applied Physics Faculty Of Engineering Hokkaido University
関連論文
- Formation of Stacking Faults in Pure Ice Single Crystals by Cooling
- Determination of Diffusion Coefficients of Self-Interstitials in Ice with a New Method of Observing Climb of Dislocations by X-Ray Topography
- The Structure Factors of Ice Crystal Determined by the X-Ray Pendellosung Method
- Flow pattern near Massif A in the Yamato bare ice field estimated from the structures and the mechanical properties of a shallow ice core
- The cause of the breakup of fast ice on March 18, 1980 near Syowa Station, East Antarctica
- The bubble close-off density of ice in Antarctic ice sheets
- X-ray Diffraction Topographic Studies of Dislocations in Natural Large Ice Single Crystals
- Movement of Small Angle Boundary of Ice Crystal
- Computer simulation of the ice sheet in the Shirase Basin, Antarctica (abstract)
- A simple method for calculating mass flux in an ice sheet, with a consideration of its temperature profile
- Observation of Etch Channels on the (0001) Plane of Ice Crystal Produced by Nonbasal Glide
- X-Ray Diffraction Topographic Studies of Antarctic Deep Core Ice