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Enhanced strength-ductility synergy via novel bifunctional nano-precipitates in a high-entropy alloyLiu, Liyuan; Zhang, Yang; Li, Junpeng; Fan, Mingyu; Wang, Xiyu; Wu, Guangchuan; Yang, Zhongbo; Luan, Junhua; Jiao, Zengbao; Liu, Chain Tsuan; et al (, International Journal of Plasticity)
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Zhang, Tianlong; Zhu, Jiaming; Yang, Tao; Luan, Junhua; Kong, Haojie; Liu, Weihong; Cao, Boxuan; Wu, Shiwei; Wang, Dong; Wang, Yunzhi; et al (, Scripta Materialia)
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Zhang, Tianlong; Huang, Zhenghua; Yang, Tao; Kong, Haojie; Luan, Junhua; Wang, Anding; Wang, Dong; Kuo, Way; Wang, Yunzhi; Liu, Chain-Tsuan (, Science)Additive manufacturing is a revolutionary technology that offers a different pathway for material processing and design. However, innovations in either new materials or new processing technologies can seldom be successful without a synergistic combination. We demonstrate an in situ design approach to make alloys spatially modulated in concentration by using laser-powder bed fusion. We show that the partial homogenization of two dissimilar alloy melts—Ti-6Al-4V and a small amount of 316L stainless steel—allows us to produce micrometer-scale concentration modulations of the elements that are contained in 316L in the Ti-6Al-4V matrix. The corresponding phase stability modulation creates a fine scale–modulated β + α′ dual-phase microstructure that exhibits a progressive transformation-induced plasticity effect, which leads to a high tensile strength of ~1.3 gigapascals with a uniform elongation of ~9% and an excellent work-hardening capacity of >300 megapascals. This approach creates a pathway for concentration-modulated heterogeneous alloy design for structural and functional applications.more » « less
