References
- Gao, Lei, and Feng Zhang. 2018. “Bond Characteristics of Composite Interfaces of HB-FRP Reinforced Concrete Structures.” Journal of Building Materials 21 (6): 969–976.
- Guan, Yan-hua, Bin-song Jiang, and Xiu-guang Song. 2010. “Experimental Study on RC Beams Strengthened in Shear with Hybrid Bonding of FRP.” Journal of Shandong University(Engineering Science) 40 (2): 82–86.
- Guan, Yan-hua, Hai-tao Miao, and Xiu-guang Song. 2010. “Study of Anchoring Parameter for Hybrid Bonding of FRP.” Journal of Shandong University(Engineering Science) 40 (3): 128–132.
- Hu, Cheng-he. 2011. Experimental Study on Improved Hybrid Bonded FRP Technique. Dalian: Dalian University of Technology.
- LingBo, Cheng Zhe, Zhang Zheng-yi , et al. 2011. “Virtual Crack Closure Method and Discrete Cohesion Model for In-plane Crack Propagation Problem”. Journal of Solid Mechanics (S1): 151–157
- Lu, Xin-zheng,Teng Jin-guang,Ye Lie-ping et al. 2005a. “Bond-slip Models for Frp Sheets/plates Bonded to Concrete.” Engineering Structure 27 (6): 920–937. DOI:10.1016/j.engstruct.2005.01.014.
- Kasumassa Nakaba, Toshiyuki Kanakubo, Tomoki Furuta,et al.2001. “Bond-behavior between Fiber-reinforced Polymer Laminates and Concrete.” ACI Structure 98 (3): 359–367.
- Shu, Ying, Zhi-min Wu, and Cheng-he Hu. 2009. “New Hybrid Bonding Technique of CFRP to Reinforced Concrete Beams.” Journal of Architectural and Engineering 26 (4): 66–72.
- Wang, Zheng-yu, Yu-fei Wu, and Wei He. “A Numerical Model for Hybrid-bonded FRP Strengthened Beams.” Proceedings of the Fourth Cross-strait Conference on Structural and Geotechnical Engineering, Hangzhou: Zhejiang University Press,2007: 503–517.
- Wu, Yu-fei, and Yu Huang. 2008. “Hybrid Bonding of FRP to Reinforced Concrete Structures.” Journal of Composites for Construction 12 (3): 266–273. doi:10.1061/(ASCE)1090-0268(2008)12:3(266).
- Wu, Yu-fei, and Cheng Jiang. 2013. “Quantification of Bond-slip Relationship for Externally Bonded Frp-to-concrete Joints.” Composite Construction 1061 (10): 673–686. doi:10.1061/(ASCE)CC.1943-5614.0000375.
- Wu, Yu-fei, and Kang Liu. 2013. “Characterization of Mechanically Enhanced Frp Bonding System.” Journal of Composites for Construction 17 (1): 34–49. doi:10.1061/(ASCE)CC.1943-5614.0000302.
- Wu, Yu-fei, Zheng-yu Wang, Kang Liu,et al.2009. “Numerical Analysis of Hybrid-bonded FRP Strengthened Concrete Beams.” Computer-Aided Civil and Infrastructure Engineering 24 (3): 371–384. DOI:10.1111/j.1467-8667.2009.00596.x.
- Yan, Jun-hui. 2009. Experimental Investigation on Hybrid Bonded FRP for Strengthening Reinforced Concrete Beams. Changsha: Civil College of Hu Nan University.
- Yun, Yan-chun, Yu-fei Wu, and Wai-Ching Tang. 2008. “Performance of FRP Bonding Systems under Fatigue Loading.” Engineering Structures 26 (4): 1–12.
- Zhang, Feng, Ping-xia Niu, and Shu-chen Li. 2010. “Experimental Research on Bonding Behavior of Hybrid-bonding of FRP.” Journal of Civil, Architectural &environmental Engineering 32 (6): 7–13.
- Zhang, Feng, Xiang-feng Xu, and Shu-cai Li. 2015a. “Meso-scale Finite Element Analysis of HB-FRP Strengthened Reinforced Concrete Beams.” Journal of Harbin Institute of Technology 27 (8): 125–128.
- Zhang, Feng, Xiang-feng Xu, and Shu-cai Li. 2015b. “Bond-slip Model for HB-FRP Systems Bonded to Concrete.” China Journal of Highway and Transport 28 (1): 38–44.
- Zhang, Feng, Xiang-feng Xu, and Shu-cai Li. 2015c. “A Unified Bond-slip Model for HB-FRP Strengthened Concrete Structures.” Applied Mathematics and Mechanics 36 (12): 1294–1305.
- Zhou, Yin-zhi, Ming-kang Gou, Feng-yu Zhang,et al. 2013. “Reinforced Concrete Beams Strengthened with Carbon Fiber Reinforced Polymer by Friction Hybrid Bond Technique: Experimental Investigation.” Material and Design 50 (2): 130–139. DOI:10.1016/j.matdes.2013.02.089.