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A Novel B2 Precipitate Gives High Strength and High Impact Toughness to Bcc‐Structured Cryogenic Steels

Qiyuan Chen, Shuai Tang, Weina Zhang, Haile Yan, Gang Sha, Guangming Cao, Jun Chen, Zhang‐Long Xie, Shenbao Jin, Xiaonan Wang, Linlin Li, Zhongwu Zhang, Mingxin Huang, Sybrand van der Zwaag, Zhenyu Liu

2024Advanced Functional Materials9 citationsDOIOpen Access PDF

Abstract

Abstract For decades, solid solution strengthening with up to 9 wt.% Ni has been the only successful strategy to obtain high strength and high impact toughness in bcc‐structured (ferritic or tempered martensitic) cryogenic steels. Until now coherent nano‐precipitates, an effective strengthening agent at room temperature, cannot be used to improve properties at cryogenic temperatures. Here, a new type of Mo‐rich nano‐B2 precipitates formed in a 6.5 wt.% Ni steel upon doping with 0.2 wt.% of Mo is reported. These precipitates are not only fully coherent with the matrix but are also shearable at 77 K. A high precipitate number density in excess of 2 × 10 24 m −3 has been achieved by an industrially feasible process optimization, which brings both the cryogenic strength and impact toughness of the steel to the same levels as those of 9Ni steels. The Mo‐rich B2 precipitation strengthening, therefore, opens a new avenue for the design and development of low‐cost high‐performance cryogenic steels.

Topics & Concepts

Materials scienceToughnessMetallurgyComposite materialEngineering physicsEngineeringMicrostructure and Mechanical Properties of SteelsMetal Alloys Wear and PropertiesMetallurgical and Alloy Processes