Stacking faults, ribbons and the formation of extended jogs in tin-disulphide
- 1 January 1964
- journal article
- research article
- Published by Taylor & Francis in Philosophical Magazine
- Vol. 9 (97) , 121-152
- https://doi.org/10.1080/14786436408217477
Abstract
Dislocations in tin-disulphide occur as widely dissociated ribbons, proving that the stacking-fault energy is very small. The geometry of possible stacking faults is discussed and the energy of the different faults is compared. It is shown that the proximity of the surface influences visibly the ribbon widths. From the presence of threefold ribbons it is concluded that two different glide planes are operative in this substance; in one of them glide takes place by a synchro-shear movement. A detailed study is made of possible intersections of ribbons resulting in the formation of extended jogs. On movement, such jogs produce trails.Keywords
This publication has 22 references indexed in Scilit:
- Dislocation patterns in graphiteJournal of Nuclear Materials, 1962
- The stacking-fault energy of graphitePhilosophical Magazine, 1961
- Electron Optical Study of Basal Dislocations in GraphiteJournal of Applied Physics, 1960
- Production of Dislocation Loops by a Combined Climb and Glide MechanismJournal of Applied Physics, 1960
- Dislocation Ribbons and Stacking Faults in GraphiteJournal of Applied Physics, 1960
- Dislocation Multiplication in Lithium Fluoride CrystalsJournal of Applied Physics, 1960
- Movement of Dislocation Loops in Lithium FluorideJournal of Applied Physics, 1958
- Dislocation patterns in potassium chlorideActa Metallurgica, 1958
- Copper Precipitation on Dislocations in SiliconJournal of Applied Physics, 1956
- Elektroneninterferenzen in konvergentem BündelThe Science of Nature, 1938