教学科研成果
代表性论文:
[1] Y. Lu, R. Kotoka, J.P. Ligda, et al., The microstructure and mechanical behavior of multilayered Mg/Ti nanofilms as a function of layer thickness, Acta Materialia 63 (2014) 216-231.
[2] Y. Lu, M. Watanabe, R. Miyata, et al., Microstructures and mechanical properties of TiC-particulate-reinforced Ti–Mo–Al intermetallic matrix composites, Materials Science and Engineering A 790 (2020) 139523.
[3] Y. Lu, J. Yamada, R. Miyata, et al., High-temperature mechanical behavior of B2-structured Ti–Mo–Al alloys, Intermetallics 117 (2020) 106675.
[4] Y. Lu, N. Sekido, K. Yoshimi, et al., Microstructures and mechanical properties of Mg/Zr nanostructured multilayers with coherent interface, Thin Solid Films 712 (2020) 138314
[5] Y. Lu, J. Yamada, J. Nakamura, et al., Effect of B2-ordered phase on the deformation behavior of Ti-Mo-Al alloys at elevated temperature, Journal of Alloys and Compounds 698 (2017) 130-135.
[6] Y. Lu, R. Kotoka, J.P. Ligda, et al., Morphological and mechanical stability of HCP-based multilayer nanofilms at elevated temperatures, Surface and Coatings Technology 275 (2015) 142-147..
[7] Y. Lu, J. Zhang, L.X. Tian, et al., Microstructural evolution of unidirectionally solidified NbSS-Nb5Si3 eutectic Alloy, Rare Metals 30 Suppl. 1 (2011) 335.
[8] S.Y. Kamata, D. Kanekon, Y. Lu, et al., Ultra-high temperature tensile creep of MoSiTiC alloy, Scientific Report 8 (2018) 10487.
[9] X. Nan, M. Zhao, Y. Lu, et al., High-temperature oxidation behavior of a Ti5Si3-incorporated MoSiBTiC alloy, Intermetallics 125 (2020) 106895.