三、代表性科研成果:
[1]
Zhibin Ling*, Henan Zhang, Quanmeng Mu, Zhe Xiang, Lingfeng Zhang, Wei Zheng. Shear performance of assembled shear connectors for timber –concrete composite beams. Construction and Building Materials, 2022; 329: 127158. (SCI)
[2]
Henan Zhang, Zhibin Ling*. Finite Element Modeling on Shear Performance of Grouted Stud Connectors for Steel–Timber Composite Beams. Materials, 2022, 15, 1196. (SCI)
[3]
Zhibin Ling*, Xiuqiang Rong, Zhe Xiang. Laterally loaded performance of single dowel-type fastener used for steel plate-to-timber connections. Structures, 2021, 34: 1985-1997. (SCI)
[4]
Zhibin Ling, Weiqing Liu*, Jingsong Shao. Experimental and theoretical investigation on shear behaviour of small-scale timber beams strengthened with Fiber-Reinforced Polymer composites. Composite Structures, 2020, 240: 111989. (SCI)
[5]
Zhibin Ling*, Zhe Xiang, Weiqing Liu, Huifeng Yang*, Ju Tang. Load-slip behaviour of glue laminated timber connections with glued-in steel rod parallel to grain. Construction and Building Materials, 2019; 227: 117028. (SCI)
[6]
Zhibin Ling*, Weiqing Liu, Huifeng Yang, Xin Chen. Modelling of glued laminated timber joints with glued-in rod considering bond-slip location function. Engineering Structures, 2018; 176: 90-102. (SCI)
[7]
Zhibin Ling#*, Huifeng Yang#, Weiqing Liu*, Shijun Zhu, Xin Chen. Local bond stress-slip relationships between glue laminated timber and epoxy bonded-in GFRP rod. Construction and Building Materials, 2018; 170: 1-12. (SCI)
[8]
Zhibin Ling, Weiqing Liu*, Frank Lam, Huifeng Yang, Weidong Lu. Bond behavior between softwood glulam and epoxy bonded-in threaded steel rod. Journal of Materials in Civil Engineering, ASCE, 2016; 28(3): 06015011. (SCI)
[9]
Zhibin Ling#, Huifeng Yang#, Weiqing Liu*, Weidong Lu, Ding Zhou, Lu Wang. Pull-out strength and bond behaviour of axially loaded rebar glued-in glulam. Construction and Building Materials, 2014; 65: 440-449. (SCI)
[10]
Lingfeng Zhang, Weiqing Liu, Lu Wang, Zhibin Ling. On-axis and off-axis compressive behavior of pultruded GFRP composites at elevated temperatures, Composite Structures, 2020.111891. (SCI)
[11]
荣秀强,凌志彬*, 陆帆. 内填木芯钢管混凝土短柱轴压性能有限元分析. 建筑钢结构进展, 2022,(网络首发地址:https://kns.cnki.net/kcms/detail/31.1893.TU.20220302.1735.004.html)
[12]
凌志彬*, 陆帆, 杨会峰. 胶合木植筋节点抗拔性能理论预测. 南京工业大学学报(自然科学版), 2021, 43(5): 654-662.
[13]
凌志彬, 刘伟庆*, 杨会峰, 陆伟东. 考虑位置函数的胶合木植筋粘结-滑移关系研究. 工程力学, 2016, 33(3): 95-103. (EI)
[14]
杨会峰, 凌志彬, 刘伟庆*, 陆伟东. 单调与低周反复荷载作用下胶合木梁柱延性抗弯节点试验研究. 建筑结构学报, 2015, 36(10): 131-138. (EI)
[15]
凌志彬, 杨会峰*, 刘伟庆, 陆伟东. 胶合木植筋黏结锚固性能试验研究. 建筑结构学报, 2013, 34(9): 132-141. (EI) |