Strange behavior of dislocations of a certain type: Self-locking

The results of studying the self-locking of dislocations, namely, the transformation of glissile dislocations into blocked dislocations in the absence of an applied stress, are generalized. The existence of selflocking is theoretically grounded and experimentally proved via the observation of disloc...

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Veröffentlicht in:	Russian metallurgy Metally 2016-04, Vol.2016 (4), p.266-285
Hauptverfasser:	Greenberg, B. A., Ivanov, M. A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminides Chemistry and Materials Science Dislocations Intermetallics Materials Science Metallic Materials Physical Foundations of Strength and Plasticity Plastic deformation Titanium base alloys Titanium compounds Transformations Yield strength
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container_title	Russian metallurgy Metally
container_volume	2016
creator	Greenberg, B. A. Ivanov, M. A.
description	The results of studying the self-locking of dislocations, namely, the transformation of glissile dislocations into blocked dislocations in the absence of an applied stress, are generalized. The existence of selflocking is theoretically grounded and experimentally proved via the observation of dislocation extension along a preferred direction upon loading-free heating after preliminary plastic deformation. The following concept is developed to explain the experimental results: an effective force appears in the case of a two-valley dislocation potential relief; it is proportional to the difference between the valley depths and causes the transformation of a dislocation into an indestructible barrier. The temperature anomaly of yield strength and the dislocation self-locking are shown to have the same nature—a two-valley dislocation potential relief. Both effects were observed in Ni 3 Al- and TiAl-type intermetallics and a pure metal (magnesium).
doi_str_mv	10.1134/S0036029516040091
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subjects	Aluminides Chemistry and Materials Science Dislocations Intermetallics Materials Science Metallic Materials Physical Foundations of Strength and Plasticity Plastic deformation Titanium base alloys Titanium compounds Transformations Yield strength
title	Strange behavior of dislocations of a certain type: Self-locking
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