Microstructure evolution and enhanced performance of a novel Nb-Mo microalloyed medium Mn alloy fabricated by low-temperature rolling and warm stamping

A combined low-temperature rolling and warm stamping process was proposed for a Fe-5.6Mn-0.19C-1.2Al-0.05Nb-0.22Mo alloy to improve the tensile ductility and surface quality of the stamped parts. The results show that the present warm-stamped U-shaped parts exhibited the relatively uniform ultrafine...

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Bibliographic Details
Published in:Materials & design 2017-11, Vol.134, p.352-360
Main Authors: Pan, H.J., Cai, M.H., Ding, H., Huang, H.S., Zhu, B., Wang, Y.L., Zhang, Y.S.
Format: Article
Language:English
Subjects:
Low temperature rolling
Mechanical properties
Medium manganese steel
Microstructure
Warm stamping
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Summary:A combined low-temperature rolling and warm stamping process was proposed for a Fe-5.6Mn-0.19C-1.2Al-0.05Nb-0.22Mo alloy to improve the tensile ductility and surface quality of the stamped parts. The results show that the present warm-stamped U-shaped parts exhibited the relatively uniform ultrafine multiphase microstructure and desirable mechanical properties, e.g. the average products of ultimate tensile strength and total elongation (PSE) values reached 27.5–31.3GPa·%, which are more than double or triple times higher than those of the hot-stamped boron steels with similar strength level. As the stamping temperature decreased from 760 to 700°C, both the fractions of ferrite and austenite increased, resulting in the enhanced tensile ductility (up to 24.5%) with sacrificing tensile strength from 1717±117 to 1424±53MPa. The difference in stamping temperature greatly affected the tensile deformation behavior of the stamped parts: at 700°C, the tensile curves exhibited Lüders band propagation (LBP) behavior, and both Portevin-Le Chatelier (PLC) and transformation induced plasticity (TRIP) effects happened, while at 760°C, the tensile curves exhibited continuous yielding behavior, and only TRIP effect happened over the entire plastic deformation. [Display omitted] •A novel Nb-Mo microalloyed 5.6Mn alloy combined with low-temperature rolling and warm stamping was presented.•A decrease in stamping temperature leads to a higher ductility of ~24.5%, with sacrificing tensile strength of ~290MPa.•The average products of tensile strength and elongation of the warm stamped parts reached 27.5-31.3GPa·%.
ISSN:0264-1275
1873-4197
DOI:10.1016/j.matdes.2017.08.047