Browsing School of Engineering and Materials Science by Author "Xia, M"
Now showing items 1-7 of 7
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Assessing the carcinogenic potential of low-dose exposures to chemical mixtures in the environment: the challenge ahead
III, GWH; Lowe, L; Carpenter, DO; Gilbertson, M; Ali, AM; de Cerain Salsamendi, AL; Lasfar, A; Carnero, A; Azqueta, A; Amedei, A (2015-06) -
Melt Flow-Induced Mechanical Deformation and Fracture Behaviour of Dendrites in Alloy Solidification
Yang, L; Ren, N; Panwisawas, C; Li, J; Xia, M; Dong, H; Li, J (Springer Nature, 2023-10-01)Cellular automaton-finite volume approach and finite element method are combined to study flow-induced dendritic deformation in alloy solidification. Simulation results reveal that dendrites can undergo mechanical fracture ... -
Melt flow-induced mechanical deformation of dendrites in alloy solidification: A coupled thermal fluid - solid mechanics approach
Yang, L; Ren, N; Panwisawas, C; Li, J; Xia, M; Dong, H; Li, J (Elsevier, 2023-07-07) -
Real-time prediction and adaptive adjustment of continuous casting based on deep learning
Lu, Z; Ren, N; Xu, X; Li, J; Panwisawas, C; Xia, M; Dong, H; Tsang, E; Li, J (Springer Nature, 2023-06-07)Digitalisation of metallurgical manufacturing, especially technological continuous casting using numerical models of heat and mass transfer and subsequent solidification has been developed to achieve high manufacturing ... -
Simulation of the solute transport and microstructure evolution during the selective laser melting process
Ren, N; Li, J; Panwisawas, C; Xia, M; Dong, H; Li, J (IOP Publishing, 2023-05-01) -
Solute trapping and non-equilibrium microstructure during rapid solidification of additive manufacturing
Ren, N; Li, J; Zhang, R; Panwisawas, C; Xia, M; Dong, H; Li, J (Springer Science and Business Media LLC, 2023)Solute transport during rapid and repeated thermal cycle in additive manufacturing (AM) leading to non-equilibrium, non-uniform microstructure remains to be studied. Here, a fully-coupled fluid dynamics and microstructure ... -
Thermal-solutal convection-induced low-angle grain boundaries in single-crystal nickel-based superalloy solidification
Yang, L; Ren, N; Li, J; Panwisawas, C; Zhang, Y; Xia, M; Dong, H; Li, J (Elsevier, 2024)Low-angle grain boundaries (LAGBs) are one of the solidification defects in single-crystal nickel-based superalloys and are detrimental to the mechanical properties. The formation of LAGBs is related to dendrite deformation, ...