کلیدواژهها
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Steel, Bainite, Phase transformation, TRIP, SEM, XRD
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چکیده
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TRIP effect and mechanical stability of retained austenite are important factors which must be considered when
talking about the ductility in nanostructured bainite. Meanwhile, different parameters affect austenite mechanical
stability among those the deformation mode is of considerable importance. This article aims to compare
the capability of high carbon retained austenite to transform to martensite when being subjected to external
tensile and compressive mechanical loads in those materials. Scanning electron microscopy were used to investigate
the microstructural features and interrupted tensile and compression tests were implemented to
evaluate austenite stability. X-ray analyses were carried out to evaluate the austenite to martensite evolution
during straining the samples and three different mathematical approaches were also implemented to express the
austenite mechanical stability by mathematical constants. Results indicated that higher yield strength, enhanced
true plastic strength and higher ductility could be obtained in compression deformation state. Moreover, tensile
tests strongly simulated the martensite formation while compressive deformation mode opposed the volume
expansion associated with austenite to martensite transformation. Accordingly, austenite was mechanically more
stable during compression and it transformed to martensite more gradually comparing to that of tension.
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