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• W3138795596 endingPage "1597" @default.
• W3138795596 startingPage "1580" @default.
• W3138795596 abstract "Low-carbon advanced nanostructured steels have been developed for various structural engineering applications, including bridges, automobiles, and other strength-critical applications such as the reactor pressure vessels in nuclear power stations. The mechanical performances and applications of these steels are strongly dependent on their microstructural features. By controlling the size, number density, distribution, and types of precipitates, it is possible to produce nanostructured steels with a tensile strength reaching as high as 2 GPa while keeping a decent tensile elongation above 10% and a reduction of area as high as 40%. Besides, through a careful control of strength contributions from multiple strengthening mechanisms, the nanostructured steels with superior strengths and low-temperature impact toughness can be obtained by avoiding the temper embrittlement regime. With appropriate Mn additions, these nanostructured steels can achieve a triple enhancement in ductility (total tensile elongation, TE of ~30%) at no expense of strengths (yield strength, YS of ~1100 to 1300 MPa, ultimate tensile strength, UTS of ~1300 to 1400 MPa). More importantly, these steels demonstrate good fabricability and weldability. In this paper, the microstructure-property relationships of these advanced nanostructured steels are comprehensively reviewed. In addition, the current limitations and future development of these nanostructured steels are carefully discussed and outlined." @default.
• W3138795596 created "2021-03-29" @default.
• W3138795596 creator A5015327348 @default.
• W3138795596 creator A5022256556 @default.
• W3138795596 creator A5046622632 @default.
• W3138795596 creator A5063498746 @default.
• W3138795596 date "2021-03-17" @default.
• W3138795596 modified "2023-10-16" @default.
• W3138795596 title "Low-carbon advanced nanostructured steels: Microstructure, mechanical properties, and applications" @default.
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