Abstract
A low C–low.alloy triphase ferrite–martensite–caustenite steel containing 7–18% retained austenite was obtained by composition design and intercritical annealing. The effect of retention and the mechanical stability of the retained austenite on the tensile properties and strain induced martensite transformation in the retained austenite during tensile deformation were studied by X-ray diffraction, tensile testing, and transmission electron microscopy. The experimental results show that the amount of retained austenite is sensitive to the intercritical annealing regime. The retained austenite is of isolated type and is mechanically unstable; the strain induced martensite transformation occurs within the retained austenite, the sequence of transformation being retained austenite (fcc) → stacking fault (hcp) → martensite (bcc). The effect of the retained austenite on the tensile properties of the triphase steel is very marked: the ultimate tensile strength, initial and overall work hardening rates, and uniform elongation are enhanced; the yield strength, ratio of yield strength to ultimate tensile strength, total elongation, and section compression are reduced; and the resistance to necking is increased.
MST/3025
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