Étude par microscopie Électronique en transmission des dislocations dans la pyrite FeS2

Autor:	Monique Fagot, Par C. Levade, Jean-Jacques Couderc, Jean Bras
Rok vydání:	1979
Předmět:	geography geography.geographical_feature_category Materials science Physics and Astronomy (miscellaneous) Condensed matter physics Plane (geometry) Metals and Alloys Stacking Fault (geology) Condensed Matter Physics Electronic Optical and Magnetic Materials Crystallography Transmission electron microscopy Partial dislocations General Materials Science Dislocation Burgers vector Stacking fault
Zdroj:	Philosophical Magazine A. 40:111-120
ISSN:	1460-6992 0141-8610
DOI:	10.1080/01418617908234836
Popis:	The component α〈100〉 of b is generally normal to the defect plane. This dislocation is not glissile. Very rarely, this component is parallel to the fault plane. We have also observed partial dislocations, with b = ± R; these dislocations lie in the fault plane but never at the end of the stacking fault.ELECTRON MICROSCOPY STUDY OF DISLOCATIONS IN PYRITE (FeS) Natural pyrites (FeS2) from several sources have been studied by transmission electron microscopy at 100 kV. Total dislocations with Burgers vector b = α〈100〉 are identified. Partial dislocations bordering stacking faults (displacement vector R) have a Burgers vector that can be written as The component a〈100〉 of b is gencrally normal to the tlefcct plane. ThisVery rarely, this component i R parallel to the fault We have also observed partial dislocations, with b = ± R; them dislocations dislocation is not glissile. plane lie in the fault plane but never at the end of the stacking fault.
Databáze:	OpenAIRE
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