Dr. Liang Luo graduated from Harbin Institute of Technology with a major in Civil Engineering and Water Resources (C9 university), with research focus on artificial intelligence, intelligent construction, intelligent operation and maintenance decision-making, and sustainability assessment of bridge facilities. He received his Bachelor's degree in Civil Engineering from East China Jiaotong University (2014-2018) and Master's degree in Architecture and Civil Engineering from South China University of Technology (a 985 institution, 2018-2021). Dr. Luo has participated in key national research projects, including the National Key R&D Program and National Natural Science Foundation projects. He has published 17 academic papers, with 16 as first author or corresponding author, covering top journals in materials science and civil engineering such as *Engineering Structures*, *Construction and Building Materials*, and *Journal of Cleaner Production*. His work spans high-performance materials, structural seismic performance, and intelligent infrastructure management. Additionally, he has teaching experience in undergraduate and postgraduate courses related to bridge engineering and structural analysis.

• Intelligent construction and intelligent operation & maintenance decision-making
• New material properties and applications (e.g., ultra-high-performance concrete, recycled aggregate concrete modified by nano-materials and fibers)
• Bridge resilience and sustainability assessment
• Seismic resistance and strengthening of structures
• Artificial intelligence applications in structural performance prediction and evaluation

• Luo L, Sun H, Jia M, et al. Experimental study and theoretical prediction of axial compression behavior in PMC-reinforced CFST columns with void defects [J]. Engineering Structures, 2024, 313: 118258. (IF=5.5 中科院1区top)
• Luo L, Shi J, Wang J, et al. Experimental study on flexural performance of ultra-high-performance concrete with recycled aggregate co-modified by nano-silica and steel fiber [J]. Construction and Building Materials, 2024, 411: 134417. (IF=7.4 中科院1区top)
• Luo L, Shi J, Qu Y, et al. Failure evolution analysis of end-plate connection joint based on structural stressing state theory [J]. Journal of Building Engineering, 2023, 68: 106137. (IF=6.4 中科院2区top)
• Sun H, Luo L*, Yuan H, et al. Experimental evaluation of mechanical properties and microstructure for recycled aggregate concrete collaboratively modified with nano-silica and mixed fibers [J]. Construction and Building Materials, 2023, 403: 133125. (IF=7.4 中科院1区top)
• Lu S, Luo L*, Han X, et al. Seismic behavior of reduced beam section joints considering concrete floor effect [J]. Structural Design of Tall and Special Buildings, 2024: e2092. (IF=1.8)
• Sun H, Luo L*, Li X, et al. The treated recycled aggregates effects on workability, mechanical properties and microstructure of ultra-high performance concrete Co-reinforced with nano-silica and steel fibers [J]. Journal of Building Engineering, 2024: 108804. (IF=6.4 中科院2区top)
• Luo L, Sun H, Lu S, et al. Evolution Characteristics and Performance Evaluation of Extended End-plate Joints with Single and Double Side Connections Under Cyclic Loading [J]. Heliyon, 2024. (IF=3.4)
• Xiao H, Luo L, Shi J, et al. Stressing state analysis of multi-span continuous steel-concrete composite box girder [J]. Engineering Structures, 2021, 246: 113070. (IF=5.5 中科院1区top)

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