High strength Fe–Mn–(Al, Si) TRIP/TWIP steels development — properties — application

Deformation twinning, martensitic phase transformation and mechanical properties of austenitic Fe-(15–30) wt.%Mn steels with additions of aluminium and silicon have been investigated. It is known that additions of aluminium increase the stacking fault energy γ fcc and therefore strongly suppress the...

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Bibliographic Details
Published in:International journal of plasticity 2000, Vol.16 (10), p.1391-1409
Main Authors: Grässel, O, Krüger, L, Frommeyer, G, Meyer, L.W
Format: Article
Language:English
Subjects:
A. Twinning
FeMn
High strain rate
TRIP
TWIP
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Summary:Deformation twinning, martensitic phase transformation and mechanical properties of austenitic Fe-(15–30) wt.%Mn steels with additions of aluminium and silicon have been investigated. It is known that additions of aluminium increase the stacking fault energy γ fcc and therefore strongly suppress the γ→ ε transformation while silicon decrease γ fcc and sustains the γ→ ε transformation. The γ→ ε phase transformation takes place in steels with γ fcc ⩽20 mJ m 2 . For steels with higher stacking fault energy twinning is the main deformation mechanism. Tensile tests were carried out at different strain rates and temperatures. The formation of twins, α- and ε- martensite during plastic deformation was analysed by optical microscopy, X-ray diffraction, scanning electron microscopy (SEM) and transmission electron microscopy (TEM). The developed light weight high manganese TRIP (“transformation induced plasticity”) and TWIP (“twinning induced plasticity”) steels exhibit high flow stress (600–1100 MPa) and extremely large elongation (60–95%) even at extremely high strain rates of about 10 3 s −1. Recent trends in the automotive industry towards improved safety standards and a reduced weight as well as a more rational and cost effective manufacturing have led to great interest in these high strength and “super tough” steels.
ISSN:0749-6419
1879-2154
DOI:10.1016/S0749-6419(00)00015-2