HIGH-STRENGTH LOW-ALLOY STEEL STRENGTHENED BY MULTIPLY NANOSCALE MICROSTRUCTURES
Recently,we have being focused on improving the strength without sacrificing ductility of Highstrength low-alloy(HSLA)steels by designing nanostructures.Several developments have been obtained,summarized as the following three parts:(a)Depressively nanoscale precipitates: A ferritic steel with finely dispersed precipitates reveals a yield strength of 760 MPa,approximately three times higher than that of conventional Ti-bearing high strength hot-rolled sheet steels,and its ultimate tensile strength reaches 850 MPa with an elongation-to-failure value of 18%.The finely dispersed TiC precipitates in the matrix provide matrix strengthening.The estimated magnitude of precipitation strengthening is around 458 MPa.The effects of the particle size,particle distribution and intrinsic particle strength have been investigated through dislocation dynamics(DD)simulations.The DD results show that strengthening is not only a function of the density of the nano-scale precipitates but also of their size.(b)Ultrafinely ferritic plate: An interstitial-free(IF)steel sheet with a cold-rolling reduction of 75%shows a high tensile strength(710MPa)while preserving a considerable plastic strain(13%).The ductility recovery with increasing the rolling reduction up to 75%is related with the decreasing both in lamellar spacings and cell blocks sizes.(c)Parallel nano-laminated austenite: A composite microstructure consisting of ferrite,bainitic ferrite(BF)laths and retained austenite(RA)platelets has been found for the steel with a chemical composition of 0.19C-0.30Si-1.76Mn-1.52Al(in mass fraction),processed with annealing and bainitic holding.The sample annealed at 820oC(for 120s)and partitioned at 400oC(for 300s)has the best combination of ultimate tensile strength(UTS,~682 MPa)and elongation to failure(~70%)with about 26%of BF plates 16%RA in its microstructure.
Steel precipitates ultrafine ferrite plate nano-laminated austenite twin
Y.F.Shen L.Zuo
Key Laboratory for Anisotropy and Texture of Materials,Northeastern University,Shenyang110004,China
国内会议
杭州
英文
187-193
2015-11-11(万方平台首次上网日期,不代表论文的发表时间)