Studying the Thermally Activated Processes Operating during Deformation of hcp and bcc Mg–Li Metal-Matrix Composites

Stress-relaxation tests were performed during plastic deformation at room temperature of three magnesium Mg–Li alloys reinforced with 10 vol% of short Saffil fibers. For comparison, the composite with the Mg matrix was studied. The time dependencies of the stress decrease were analyzed with the aim...

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Bibliographic Details
Published in:Metals (Basel ) 2021-03, Vol.11 (3), p.473
Main Authors: Trojanová, Zuzanka, Drozd, Zdeněk, Lukáč, Pavel, Džugan, Ján
Format: Article
Language:English
Subjects:
Composite materials
Ductility
Grain size
internal stress
magnesium alloy
Magnesium base alloys
Metal matrix composites
Parameter sensitivity
Plastic deformation
Plastic flow
Residual stress
Room temperature
short-fiber composite
Strain
Stress relaxation
Stress relaxation tests
stress-relaxation test
thermally activation processes
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Summary:Stress-relaxation tests were performed during plastic deformation at room temperature of three magnesium Mg–Li alloys reinforced with 10 vol% of short Saffil fibers. For comparison, the composite with the Mg matrix was studied. The time dependencies of the stress decrease were analyzed with the aim to determine the activation volume and the main types of thermally activated processes occurring during plastic flow. The Mg4Li matrix alloy exhibited the hcp structure, while the composite with the Mg12Li matrix alloy had the bcc structure. The third alloy, Mg8Li, combined both phases, hcp and bcc. The stress acting in the matrix was divided into two components: the internal stress and the effective stress. Activation volume and stress-sensitivity parameters were determined as a function of effective stress and strain. While the values of the activation volume depending on the effective stress lay on one “master” curve, the strain dependence was different for all materials. The main thermally activated process in the hcp structure was the dislocation motion in the noncompact planes, while in the bcc structure, massive recovery processes connected with an increase in dislocations were identified.
ISSN:2075-4701
2075-4701
DOI:10.3390/met11030473