Martensite is a key constituent in advanced high strength steels (AHSS). The mechanical response of martensite has received particular attention in recent years due to its very high strain hardening rate. Previous studies have shown that the strain hardening behaviour of as-quenched and low temperature tempered martensite can be described by considering martensite as a composite, with constituents showing a spectrum of yield strengths or residual transformation stresses, or more likely, a combination of both effects. However, the composite models are unable to explain the flow behaviour of martensite tempered above 400°C when the composite effect starts to diminish and a transition in the strain hardening behaviour is observed. In this cont...
Understanding the effect of high strain rate deformation on microstructure and mechanical property o...
International audienceThe strain induced martensite transformation in austenitic stainless steels is...
The influence of carbon distribution and carbide precipitation on the mechanical properties of the a...
Martensite is a key constituent in advanced high strength steels and plays an important role in prov...
Although martensite is recognised as a very strong phase in carbon steels, its initial yielding comm...
This article aims to analyse the influence of temperature and strain rate on the mechanical behaviou...
Recent theories consider as-quenched martensite as a composite which strain hardens by the gradual y...
A series of medium-carbon low alloy steels was quenched to martensite and tempered at 150 C. This lo...
The role of retained austenite on tensile behavior in quenched and partitioned (Q&P) steels has ...
The main explanations for tempered martensite embrittlement are based on the effects of impurities a...
The microstructure evolution and mechanical behavior during large strain of a 0.16%C-Mn steel has be...
Deformation-induced martensitic transformation as the basis of a hardening process is dependent, amo...
The mechanical and thermal stability of austenite in multiphase advanced high strength steels are in...
The complex microstructure of ferrous martensite is reflected in its complex mechanical response. In...
Martensitic and bainitic steels are two types of widely used steels with excellent mechanical behavi...
Understanding the effect of high strain rate deformation on microstructure and mechanical property o...
International audienceThe strain induced martensite transformation in austenitic stainless steels is...
The influence of carbon distribution and carbide precipitation on the mechanical properties of the a...
Martensite is a key constituent in advanced high strength steels and plays an important role in prov...
Although martensite is recognised as a very strong phase in carbon steels, its initial yielding comm...
This article aims to analyse the influence of temperature and strain rate on the mechanical behaviou...
Recent theories consider as-quenched martensite as a composite which strain hardens by the gradual y...
A series of medium-carbon low alloy steels was quenched to martensite and tempered at 150 C. This lo...
The role of retained austenite on tensile behavior in quenched and partitioned (Q&P) steels has ...
The main explanations for tempered martensite embrittlement are based on the effects of impurities a...
The microstructure evolution and mechanical behavior during large strain of a 0.16%C-Mn steel has be...
Deformation-induced martensitic transformation as the basis of a hardening process is dependent, amo...
The mechanical and thermal stability of austenite in multiphase advanced high strength steels are in...
The complex microstructure of ferrous martensite is reflected in its complex mechanical response. In...
Martensitic and bainitic steels are two types of widely used steels with excellent mechanical behavi...
Understanding the effect of high strain rate deformation on microstructure and mechanical property o...
International audienceThe strain induced martensite transformation in austenitic stainless steels is...
The influence of carbon distribution and carbide precipitation on the mechanical properties of the a...
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