Litcius/Paper detail

Unraveling microforging principle during in situ shot-peening-assisted cold spray additive manufacturing aluminum alloy through a multi-physics framework

Qian Wang, Ninshu Ma, Junmiao Shi, Wenjia Huang, Xiao‐Tao Luo, Peihao Geng, Mingxing Zhang, Xiancheng Zhang, Chang‐Jiu Li

2023Materials & Design16 citationsDOIOpen Access PDF

Abstract

Cold spray (CS) is a highly potential solid-state additive manufacturing (AM) technique. In situ shot-peening-assisted CSAM was proposed to additively manufacture fully dense deposits using cost-effective and renewable nitrogen gas. The role of in situ shot-peening particles is critical but remains unclear. Here, the process was quantitatively modeled to visualize the dynamic deformation, energy conversion, as well as cell/sub-grain size and microhardness evolutions, compared to those during the conventional CSAM process, identifying the key role of in situ shot-peening particles in the AA6061 extreme deformation and microstructure characteristics during in situ shot-peening-assisted CSAM. High-fidelity modeling was verified fully by comparing the experimental and model-reproduced deformation profiles, cell/sub-grain size distributions, and increases in microhardness. The results show that the kinetic energy of in situ shot-peening particles was 470 times higher and dissipated mainly through AA6061 plastic deformation (86.36% of total energy), leading to significant enhancement of microhardness and tensile strength. Moreover, the mixing ratio of large-size SS410 particles required to create a fully dense deposit was evaluated from an energy perspective, in good agreement with the experiment. This study elucidates the microforging principle during in situ shot-peening-assisted CSAM, providing scientific guidelines for high-quality and low-cost CSAM of high-strength aluminum alloys.

Topics & Concepts

Shot peeningMaterials scienceIndentation hardnessPeeningSevere plastic deformationShot (pellet)Grain sizeAlloyMetallurgyMicrostructureDeformation (meteorology)Gas dynamic cold sprayIn situProcess windowComposite materialCoatingResidual stressOptoelectronicsLithographyMeteorologyPhysicsHigh-Temperature Coating BehaviorsAdditive Manufacturing and 3D Printing TechnologiesAdvanced ceramic materials synthesis