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Continuous measurement of m-parameter for analyzing plastic instability in a superplastic ultra-fine grained magnesium alloy

Publication at Faculty of Mathematics and Physics |
2017

Abstract

In this paper, the superplastic properties of ultra-fine grained AZ31 Mg, alloy prepared by ECAP are investigated. Ultra-fine grained materials (UFG) often exhibit superplastic behavior, but UFG microstructure is not stable at increased temperatures.

Due to recovery and grain growth the m-parameter of strain rate sensitivity may decrease during the tensile test. Methodology of continuous measurement of m-parameter during the tensile test is presented.

Tensile tests were conducted at relatively low temperatures of 150-250 degrees C. The m-parameter decreased with increasing true strain for all studied conditions from approx. 0.5-0.3.

The decrease was most pronounced for the highest temperature (250 degrees C) and was attributed to recovery and recrystallization. Three different criteria of plastic instability were evaluated.

Hart's criterion significantly underestimated the stability of plastic deformation, whereas other criteria based on geometrical model of grain boundary sliding were more appropriate for the description of elongation up to fracture.