Influence of Plastic Deformation on the Clustering of Quenched-in Vacancies in Aluminum
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概要
- 論文の詳細を見る
Plastic deformation after a quench of aluminum is found to increase the densities of voids and dislocation loops remarkably. This effect is observed only when quenched specimens are deformed in a very early stage of aging which is comparable to the nucleation period of the defects. The increment of the defect density increases with increasing amount of deformation, depending on the mode of deformation: the deformation by a multiple glide is more effective than that by a single glide. The increment of the defect density does not depend on the quenching temperature, that is, the amount of quenched-in vacancies. These results indicate that the localized vacancies produced by the motion of jogs which are formed by the mutual cutting between dislocations enhance the nucleation of the defects
- 社団法人日本物理学会の論文
- 1966-10-05
著者
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Yoshida Sho
Laboratory Of Crystal Physics Faculty Of Science Hiroshima University:(present Address) Physics Depa
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KIRITANI Michio
Laboratory of Crystal Physics, Faculty of Science Hiroshima University
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SATO Akikazu
Laboratory of Crystal Physics, Faculty of Science, Hiroshima University
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Sato Akikazu
Department Of Metallurg And Marial Science Faculty Of Engineering University Of Tokyo:laboratory Of
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Sato Akikazu
Laboratory Of Crystal Physics Faculty Of Science Hiroshima University
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Kiritani Michio
Department Of Metallurg And Marial Science Faculty Of Engineering University Of Tokyo:laborarory Of
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Kiritani Michio
Laboratory Of Crystal Physics Faculty Of Science Hiroshima University
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Yoshida Sho
Laboratory Of Crystal Physics Faculty Of Science Hiroshima University
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Kiritani Michio
Laboratory Of Crystal Physics Faculity Of Science Hiroshima University
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Kiritani M.
Laboratory of Crystal Physics, Faculty of Science, Hiroshima University
関連論文
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- Nature of Black Spot Defects in Quenched Gold
- Formation of Dislocation Loops in Degassed and Quenched Aluminum
- Influence of Plastic Deformation on the Clustering of Quenched-in Vacancies in Aluminum
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- Shape of Voids in Quenched Aluminum
- Dislocation Loops with Stacking Fault in Quenched Aluminum
- Dislocation Loops Containing a Stacking Fault in Quenched Super-Pure Aluminum
- Nucleation and Growth of Voids in Quenched Aluminum
- An Evidence of Voids in Quenched Aluminum
- New Type Dislocation Loops in Quenched Aluminum
- Formation of Dislocation Loops at Low Temperatures in Quenched Aluminum
- Heterogeneous Nucleation of Voids in Quenched Aluminum
- Formation of Double Layer Stacking Fault Dislocation Loops
- Effects of Atmospheres on the Formation of Secondary Defects in Quenched Pure Aluminum
- A New Type Aggregation of Quenched-in Vacancies in Aluminum
- Formation of Voids and Dislocation Loops in Quenched Aluminum
- Electrical Resistivity of Secondary Defects in Quenched Aluminum
- Influence of Plastic Deformation on the Clustering of Vacancies in Quenched Gold
- Impurity Substructure in Zinc Crystal Grown from the Melt