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Improved properties of wire arc directed energy deposited thin-walled Al-6Mg-0.3Sc component via laser shock peening

Xuewei Fang, Kai Li, Minghua Ma, Chang Liu, Yao Zhang, Jianzhong Zhou, Zhanxin Li, Jiahao Shang, Ke Huang, Bingheng Lu

2024Virtual and Physical Prototyping13 citationsDOIOpen Access PDF

Abstract

Heat treatment free aluminum alloys have been developed for wire arc directed energy deposition (DED) large thin-walled components, but their further performance enhancement methods remain unexplored. In this study, laser shock peening (LSP) treatment was performed on wire arc DED Al-6Mg-0.3Sc components. The results show that LSP creates a gradient microstructure with submicro-grains near the surface. The effects of LSP on defects were quantified by quasi-in-situ CT, demonstrating a reduction in porosity by over 68% together with decreased size. Simultaneously, tensile strength increases by 39.5% to 295.8 ± 6.4 MPa with only a marginal loss of elongation, as compared to the as-deposited (AD) state. This was due to the accumulation of dislocations and continuous dynamic recrystallization lead to grain refinement, as well as the appearance of a triple heterogeneous microstructure. Therefore, this study offers a novel solution for manufacturing of high-performance heat treatment free large thin-walled components.

Topics & Concepts

Materials sciencePeeningMicrostructureRecrystallization (geology)Shot peeningPorosityUltimate tensile strengthMetallurgyComposite materialShock (circulatory)AluminiumThermal shockElongationDeposition (geology)Thin filmResidual stressNanotechnologyInternal medicineBiologySedimentMedicinePaleontologySurface Treatment and Residual StressAdditive Manufacturing Materials and ProcessesHigh Entropy Alloys Studies
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