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Through the comparison of microstructure for polygonal ferrite(PF)matrix transformation induced plasticity(TRIP)seamless steel tube at different positions before and after tensile rupture,the transformation behavior of retained austenite(RA)was studied.The results showed that there were no yield points in tensile process and the splendid elongation and tensile strength were contributed by the uniform ferrite/bainite grains and the transformation of RA.The stability of RA was to some extent in inverse proportion with the ability of transformation induced plasticity.The coarse retained austenite located in ferrite and ferrite/bainite laths were all transformed into martensite during the tensile process.
Through the comparison of microstructure for polygonal ferrite (PF) matrix transformation induced plasticity (TRIP) seamless steel tube at different positions before and after tensile rupture, the transformation behavior of retained austenite (RA) was studied. The results showed that there were no yield points in tensile process and the splendid elongation and tensile strength were contributed by the uniform ferrite / bainite grains and the transformation of RA. stability of RA was to some extent in inverse proportion with the ability of transformation induced plasticity.The coarse retained austenite located in ferrite and ferrite / bainite laths were all transformed into martensite during the tensile process.