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Microstructures and Toughness of Weld Metai of Ultrafine Grained Ferritic Steel by Laser Welding 被引量:11
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作者 XudongZHANG WuzhuCHEN +3 位作者 ChengWANG LinZHAO YunPENG ZhilingTIAN 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2004年第6期755-759,共5页
3 mm thick 400 MPa grade ultrafine grained ferritic steel plates were bead-on-plate welded by CO2 laser with heat input of 120-480 J/mm. The microstructures of the weld metal mainly consist of bainite, which form is l... 3 mm thick 400 MPa grade ultrafine grained ferritic steel plates were bead-on-plate welded by CO2 laser with heat input of 120-480 J/mm. The microstructures of the weld metal mainly consist of bainite, which form is lower bainite plates or polygonal ferrite containing quantities of dispersed cementite particles, mixed with a few of low carbon martensite laths or ferrite, depending on the heat input. The hardness and the tensile strength of the weld metal are higher than those of the base metal, and monotonously increase as the heat input decreases. No softened zone exists in heat affected zone (HAZ). Compared with the base metal, although the grains of laser weld are much larger, the toughness of the weld metal is higher within a large range of heat input. Furthermore, as the heat input increases, the toughness of the weld metal rises to a maximum value, at which point the percentage of lower bainite is the highest, and then drops. 展开更多
关键词 Laser welding ultrafine grained steel MICROSTRUCTURE TOUGHNESS
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Effect of grain boundary sliding on the toughness of ultrafine grain structure steel: A molecular dynamics simulation study 被引量:1
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作者 谢红献 刘波 +1 位作者 殷福星 于涛 《Chinese Physics B》 SCIE EI CAS CSCD 2013年第1期54-61,共8页
Molecular dynamics simulations are carried out to investigate the mechanisms of low-temperature impact toughness of the ultrafine grain structure steel. The simulation results suggest that the sliding of the {001 }/{ ... Molecular dynamics simulations are carried out to investigate the mechanisms of low-temperature impact toughness of the ultrafine grain structure steel. The simulation results suggest that the sliding of the {001 }/{ 110} type and { 110}/{ 111 } type grain boundary can improve the impact toughness. Then, the mechanism of grain boundary sliding is studied and it is found that the motion of dislocations along the grain boundary is the underlying cause of the grain boundary sliding. Finally, the sliding of the grain boundary is analyzed from the standpoint of the energy. We conclude that the measures which can increase the quantity of the {001}/{110} type and {110}/{ 111} type grain boundary and elongate the free gliding distance of dislocations along these grain boundaries will improve the low-temperature impact toughness of the ultrafine grain structure steel. 展开更多
关键词 molecular dynamics simulations grain boundary CRACK ultrafine grain structure steel
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Structural Ultrafine Grained Steels Obtained by Advanced Controlled Rolling
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作者 R González J O García +3 位作者 M A Barbés M J Quintana L F Verdeja J I Verdeja 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2013年第1期62-70,共9页
Steels with ultrafine grains (lower than 5 μm), which usually known as ultrafine ferrite or ultrafine grained materials, are presently the object of intense research, because of the improvement in resistance and fr... Steels with ultrafine grains (lower than 5 μm), which usually known as ultrafine ferrite or ultrafine grained materials, are presently the object of intense research, because of the improvement in resistance and fracture toughness they may reach compared to conventional steels (with grain sizes above this value). It is shown that the forenamed steels designated in the Euronorm EN 10149-2, which are manufactured by advanced techniques of controlled rolling and mainly used in automotive industry, have an ultrafine grain size in the range of 2.5 to 3.5 μm, and with elastic yield stresses higher than 400 MPa. Based on the Morrison-Miller criterion, it is shown that values of the strain-hardening coefficient lower than 0.08 would make the industrial application of these steels unfeasible. 展开更多
关键词 ultrafine grained steel mechanical property MANUFACTURABILITY STRAIN-HARDENING
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