首页|Revealing precipitation behavior and mechanical response of wire-arc directed energy deposited Mg-Gd-Y-Zr alloy by tailoring aging procedures

Revealing precipitation behavior and mechanical response of wire-arc directed energy deposited Mg-Gd-Y-Zr alloy by tailoring aging procedures

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Mg-Gd-Y-Zr alloy,as a typical magnesium rare-earth(Mg-RE)alloy,is gaining popularity in the advanced equipment manufacturing fields owing to its noticeable age-hardening properties and high specific strength.However,it is extremely challenging to prepare wrought components with large dimensions and complex shapes because of the poor room-temperature processability of Mg-Gd-Y-Zr alloy.Herein,we report a wire-arc directed energy deposited(DED)Mg-10.45Gd-2.27Y-0.52Zr(wt.%,GW102K)alloy with high RE content presenting a prominent combination of strength and ductility,realized by tailored nanoprecipitates through an optimized heat treatment procedure.Specifically,the solution-treated sample exhibits excellent ductility with an elongation(EL)of(14.6±0.1)%,while the aging-treated sample at 200 ℃ for 58 h achieves an ultra-high ultimate tensile strength(UTS)of(371±1.5)MPa.Besides,the aging-treated sample at 250 ℃ for 16 h attains a good strength-ductility synergy with a UTS of(316±2.1)MPa and a EL of(8.5±0.1)%.Particularly,the evolution mechanisms of precipitation response induced by various aging parameters and deformation behavior caused by nanoprecipitates type were also systematically revealed.The excellent ductility resulted from coordinating localized strains facilitated by active slip activity.And the ultra-high strength should be ascribed to the dense nano-β'hampering dislocation motion.Additionally,the shearable nano-β1 contributed to the good strength-ductility synergy.This work thus offers insightful understanding into the nanoprecipitates manipulation and performance tailoring for the wire-arc DED preparation of large-sized Mg-Gd-Y-Zr components with complex geometries.

wire-arc directed energy depositionMg-Gd-Y-Zr alloyprecipitation responseprominent strength-ductility combinationdeformation mechanism

Xinzhi Li、Xuewei Fang、Zhiyan Zhang、Shahid Ghafoor、Ruikai Chen、Yi Liu、Kexin Tang、Kai Li、Minghua Ma、Jiahao Shang、Ke Huang

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State Key Laboratory for Manufacturing Systems Engineering,School of Mechanical Engineering,Xi'an Jiaotong University,Xi'an 710049 Shaanxi,People's Republic of China

National Natural Science Foundation of ChinaNational Natural Science Foundation of ChinaXi'an Jiaotong University Basic Research Funds for Freedom of Exploration and Innovation-Student ProgramsKey Research and Development Projects of Shaanxi ProvinceYoung Elite Scientists Sponsorship Program by CASTState Key Laboratory for Mechanical Behavior of MaterialsXiaomi Foundation through Xiaomi Young Scholar Program

5227537452205414xzy0220230662023-YBGY-3612021QNRC00120212311

2024

10.1088/2631-7990/ad35fd

极端制造(英文)

极端制造(英文)

CSTPCDEI
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年,卷(期):2024.6(4)