Highly Cooperative and Defect-Assisted Diffusion in Metallic Glasses
Measurements of pressure dependence and isotope effect of Co diffusion in melt-spun amorphous Co sub 76.7 Fe sub 2 Nb sub 14.3 B sub 7 ribbon were made. In samples preannealed for structural relaxation the resulting activation volume of )0.06 plus/minus 0.1 atomic volume and the isotope effect of E...
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| Veröffentlicht in: | Solid state phenomena 1992-09, Vol.95-98 (II), p.1175-1180 |
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| container_title | Solid state phenomena |
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| creator | Faupel, F Ratzke, K Huppe, P W |
| description | Measurements of pressure dependence and isotope effect of Co diffusion in melt-spun amorphous Co sub 76.7 Fe sub 2 Nb sub 14.3 B sub 7 ribbon were made. In samples preannealed for structural relaxation the resulting activation volume of )0.06 plus/minus 0.1 atomic volume and the isotope effect of E = 0.1 plus/minus 0.03 allow us to rule out diffusion via quasivacancies. The extremely small E value rather indicates a highly cooperative mechanism. Measurements of the isotope effect at different stages of structural relaxation show a strong decrease of E from E > 0.5 in the as-quenched glass to E = 0.1 in the relaxed state. The large isotope effect in the as-quenched ribbon points to the prevalence of single-atom jumps, which require the presence of vacancylike holes of excess volume. |
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In samples preannealed for structural relaxation the resulting activation volume of )0.06 plus/minus 0.1 atomic volume and the isotope effect of E = 0.1 plus/minus 0.03 allow us to rule out diffusion via quasivacancies. The extremely small E value rather indicates a highly cooperative mechanism. Measurements of the isotope effect at different stages of structural relaxation show a strong decrease of E from E > 0.5 in the as-quenched glass to E = 0.1 in the relaxed state. The large isotope effect in the as-quenched ribbon points to the prevalence of single-atom jumps, which require the presence of vacancylike holes of excess volume.</abstract></addata></record> |
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| language | eng |
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| title | Highly Cooperative and Defect-Assisted Diffusion in Metallic Glasses |
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