Cryogenic temperature toughening and strengthening due to gradient phase structure
Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review
Author(s)
Detail(s)
Original language | English |
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Pages (from-to) | 358-364 |
Journal / Publication | Materials Science and Engineering A |
Volume | 712 |
Publication status | Published - 17 Jan 2018 |
Externally published | Yes |
Link(s)
Abstract
Cold embrittlement is one of the primary concerns challenging the usage of steels in infrastructures like pipelines and ocean platforms. This challenge is also compounded by the limited selection of materials for application in a cold and corrosive environment. Inspired by recent progresses in developing gradient structured materials with extraordinary properties, here we report a class of stainless steels with gradient phase structures achieving a superb combination of strength (1753 MPa) and tensile ductility (>25%) at the cryogenic temperature of 77 K. A set of cylindrical steel samples acquire a graded mixture of hard martensitic and soft austenitic phases through pre-torsion, which results in an optimal stress partition in the material - the hard martensitic structures showing a positive density gradient from core to edge carry higher stress near the edge, while the soft austenitic phase showing a negative density gradient from core to edge serves to retain substantial tensile ductility. The phase-transformation at low temperature in gradient structures and the resulted work-hardening could be adopted to enhance the ductility and strength of widely used engineering materials for their applications in harsh environment.
Research Area(s)
- Cryogenic, Gradient, Strengthening, Synchrotron high-energy X-ray diffraction, Toughening
Bibliographic Note
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Citation Format(s)
Cryogenic temperature toughening and strengthening due to gradient phase structure. / Ma, Zhiwei; Ren, Yang; Li, Runguang et al.
In: Materials Science and Engineering A, Vol. 712, 17.01.2018, p. 358-364.
In: Materials Science and Engineering A, Vol. 712, 17.01.2018, p. 358-364.
Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review