职称:教授
学位:博士学位
再生混凝土材料、结构与3D打印
1 再生混凝土 [M]. 中国建筑工业出版社. 2008
2 Recycled Aggregate Concrete Structures [M]. Berlin: Springer-Verlag, 2018
3 再生混凝土创新研究与进展 [M]. 科学出版社. 2020
4 再生混凝土的抗压强度研究[J].同济大学学报(自然科学版),2004(12):1558-1561.
5 考虑时变可靠度的再生混凝土结构设计[J].建筑结构学报,2020,41(12):17-27.
6 废弃混凝土再生原理与再生混凝土基本问题[J].科学通报,2023,68(05):510-523.
7 Mechanical properties of recycled aggregate concrete under uniaxial loading [J]. Cement and Concrete Research, 2005. 35: 1187-1194.
8 Shear transfer across a crack in recycled aggregate concrete [J]. Cement and Concrete Research, 2012. 42: 700-709.
9 Effects of interfacial transition zones on the stress-strain behavior of modeled recycled aggregate concrete [J]. Cement and Concrete Research, 2013. 52: 82-99.
10 Compressive behaviour of recycled aggregate concrete under impact loading [J]. Cement and Concrete Research, 2015. 71: 46-55.
11 Mechanical properties and uniaxial compressive stress-strain behavior of fully recycled aggregate concrete [J]. Construction and Building Materials, 2022. 323: 126546.
12 3D recycled mortar printing: System development, process design, material properties and on-site printing [J]. Journal of Building Engineering, 2020, 32: 101779.
13 Hardened properties of layered 3D printed concrete with recycled sand [J]. Cement & Concrete Composites, 2020. 113: 103724.
14 Large-scale 3D printing concrete technology: Current status and future opportunities [J]. Cement & Concrete Composites, 2021. 122: 104115.
15 Performance of 3D printed concrete beams with ECC and recycled aggregate: Experiment and finite element analysis [J]. Engineering Structures, 2023, 283: 115865
混凝土结构减碳设计与绿色建造
1 可持续混凝土结构导论 [M]. 科学出版社. 2017
2 混凝土结构低碳设计理论前瞻[J].科学通报,2022,67(Z2):3425-3438.
3 工程结构可持续性设计理论架构[J].土木工程学报,2020,53(06):1-12.
4 Probabilistic sustainability design of structural concrete components under climate change [J]. Structural Safety, 2021, 92: 102103
5 A closed-loop life cycle assessment of recycled aggregate concrete utilization in China [J]. Waste Management, 2016. 56: 367-375.
6 Sustainability-based reliability design for reuse of concrete components [J]. Structural Safety, 2022. 98: 102241.
7 A recycled aggregate concrete high-rise building: Structural performance and embodied carbon footprint [J]. Journal of Cleaner Production, 2018.199: 868-881.
混凝土结构拆解、再生与低碳资源化
1 拆解工程学理论架构与基本方法 [J]. 建筑结构学报,2022,43(02):197-206.
2 混凝土结构的新发展—组合混凝土结构 [J]. 同济大学学报(自然科学版),2018,46(02):147-155.
3 结构拆解力学分析基础与基本方法[J]. 同济大学学报(自然科学版), 2020,48(08) : 1083-1092+1198.
4 Structural behavior of a new moment-resisting DfD concrete connection [J]. Engineering Structures, 2017. 132: 1-13.
5 Experimental study of the seismic performance of concrete beam-column frame joints with DfD connections [J]. ASCE Journal of Structural Engineering, 2020, 146(4): 04020036.
6 Life cycle assessment of concrete structures with reuse and recycling strategies: A novel framework and case study [J]. Waste Management, 2020, 105: 268-278.
混凝土结构火安全可恢复性
1 高性能混凝土结构抗火设计原理 [M].北京:科学出版社, 2015
2 On residual strength of high-performance concrete with and without polypropylene fibres at elevated temperatures [J]. Fire Safety Journal, 2006, 41(2): 115-121.
3 Fire response of high-performance concrete frames and their post-fire seismic performance [J]. ACI Structural Journal, 2008, 105(5): 531-540.
4 Beam test on bond behaviour between high-grade rebar and high-strength concrete after elevated temperatures [J]. Fire Safety Journal, 2014, 69: 23-35.
5 Effect of strain rate on HSC compressive behavior after elevated temperatures [J]. Fire Safety Journal, 2016, 83:25-37.
6 Fire resistance and post-fire seismic behavior of high strength concrete shear walls [J]. Fire Technology, 2017, 53(1):65–86.
7 Study on high-performance concrete at high temperatures in China (2004-2016) -An updated overview [J]. Fire Safety Journal, 2018, 95: 11-24.
8 Probabilistic analysis of building fire severity based on fire load density models [J]. Fire Technology, 2019, 55(4): 1349-1375.
