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My research focuses on metal additive manufacturing (AM), characterization and testing, and microstructure engineering of structural alloys. I’m very interested in studying how the point-by-point material forming process typical of AM yields the microstructure heterogeneity that is frequently observed in metal parts. This heterogeneity is a double-edged sword. On the one hand, it leads to large property scatter and casts uncertainty over parts performance, hindering the adoption of additive technologies by the industry. On the other hand, it may impart exceptional mechanical properties, which even surpass those found in conventionally produced materials. My goal is to understand and control this microstructure heterogeneity to design and produce materials with "architected microstructures" which will exhibit more predictable behavior and tailored functionalities. My vision is that this unique capability will enable a new design paradigm in metal AM for producing both geometry-and microstructure-optimized parts.
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ACTA MATERIALIA (2024): 119413
SSRN Electronic Journal (2023): 112384-112384
Microscopy and microanalysis : the official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canadano. Supplement_1 (2023): 1411-1412
Ruiliang Liu, Nicolo Ivanovich,Chenyang Zhu, Yee Phan Yeo,Xiaogang Wang,Matteo Seita,Federico M. Lauro
MATERIALS & DESIGN (2023): 112353-112353
Encyclopedia of Materials: Metals and Alloyspp.193-202, (2022)
Additive Manufacturing Letterspp.100029-100029, (2022)
Materials Science and Engineering: A (2022): 142493
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