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2013
Journal Article
Titel
Influence of matrix strength and volume fraction of Mg-PSZ on the cyclic deformation behavior of hot pressed TRIP/TWIP-matrix composite materials
Abstract
Particle reinforced metal matrix composites (MMCs) based on high-alloyed CrMnNi steels and partially stabilized zirconia (Mg-PSZ) are produced using the hot pressing technique. The resulting materials differ in the chemical composition of the high-alloyed steel matrix and volume fraction of Mg-PSZ. The change of chemical composition has a substantial influence on the austenite stability and stacking fault energy, triggering different deformation mechanisms in terms of the deformation-induced transformation of austenite into Ï- and/or -martensite and/or deformation-induced twinning. MMCs with 5 and 10 vol% Mg-PSZ as well as unreinforced steels are investigated in total strain controlled fatigue tests. The focus of this work is to clarify the effect of the matrix strength and Mg-PSZ volume fraction on the cyclic deformation behavior. This includes the discussion of cyclic hardening and/or softening during fatigue tests, consequences on the fatigue life times and deformati on-induced microstructures.