[1] Sun Y, Zheng Y, Sun Z Y(孙泽阳), Miao Z, Wei Y, Wu G, Ge H. Bond behavior between bundled composite bars and concrete using beam-end pullout tests[J]. Construction and Building Materials. 2024, 414: 134963.
[2] Sun Z Y(孙泽阳), Sun Y, Zheng Y, et al. Experimental study on precast concrete columns reinforced with bundled SFCBs under horizontal cyclic loading[J]. Journal of Building Engineering. 2023: 106882.
[3] Sun Z Y(孙泽阳), Zheng Y, Sun Y, et al. Deformation ability of precast concrete columns reinforced with steel-FRP composite bars (SFCBs) based on the DIC method[J]. Journal of Building Engineering 2023: 106083.
[4] Sun Z Y(孙泽阳), Chen Y, Xu S, et al. Shaking Table Test of Concrete Columns Hybrid Reinforced by Steel/FRP Bars[J]. Journal of Building Engineering. 2022: 103938.
[5] Sun Z Y(孙泽阳), Feng D, Sun Y, et al. Bond-slip behavior of bundled steel/FRP bars and its implementation in high-fidelity FE modeling of reinforced concrete beams[J]. Construction and Building Materials. 2021, 286: 122887.
[6] Sun Z Y(孙泽阳), Fu L, Feng D, et al. Experimental study on the flexural behavior of concrete beams reinforced with bundled hybrid steel/FRP bars[J]. Engineering Structures. 2019, 197: 109443.
[7] 孙泽阳,孙运楼,郑忆,姚刘镇,吴刚. 考虑表面肋参数的钢-连续纤维复合筋与灌浆套筒界面性能研究[J]. 中国公路学报. 2022, 35(2): 269-278.
[8] Sun Y, Zheng Y, Sun Z Y(孙泽阳), et al. Quasi-static experimental study on precast concrete columns reinforced with bundled rebars[J]. Structures. 2023, 53: 70-82.
[9] Chen Y, Sun Z Y(孙泽阳), Zhang R, et al.. Attention mechanism based neural networks for structural post-earthquake damage state prediction and rapid fragility analysis[J]. Computers & Structures. 2023, 281: 107038.
[10] Sun Y, Fu J, Sun Z Y(孙泽阳), Zhang J, Wei Y, Wu G. Flexural behavior of concrete beams reinforced by partially unbonded steel-FRP composite bars[J]. Engineering Structures. 2022, 272: 115050.
[11] Sun Y, Sun Z Y(孙泽阳), Yao L, et al. Bond performance between SFCBs and grouted sleeves for precast concrete structures[J]. Advances in Structural Engineering. 2021: 1710122945.
[12] Tang Y, Sun Z Y(孙泽阳), Wu G, et al. Compressive Behavior of Steel-FRP Composite Bars Confined with Low Elastic Modulus FRP Spirals in Concrete Columns[J]. Journal of Composites for Construction, ASCE. 2022.
[13] Tang Y, Sun Z Y(孙泽阳), Wei Y, et al. Compressive behavior and design method of BFRP bars constrained with a BFRP spiral with different spacings in concrete members[J]. Engineering Structures. 2022, 268: 114757.
[14] Zeng Y, Huang Y, Sun Z Y(孙泽阳). A Probabilistic Framework for Robustness Quantification of Precast Concrete Frames under Seismic Loading[J]. Applied Sciences. 2022.
[15] Tang Y, Sun Z Y(孙泽阳), Wu G, et al. Experimental Study on Cyclic Behavior of SFCBs with Different Slenderness Ratios[J]. Journal of Materials in Civil Engineering. 2021, 33(8): 4021204.
[16] Yang Y, Sun Z Y(孙泽阳), Wu G, et al. Experimental study of concrete beams reinforced with hybrid bars (SFCBs and BFRP bars)[J]. Materials and Structures. 2020, 53(4): 77-92.
[17] Yang Y, Sun Z Y(孙泽阳), Wu G, et al. Flexural capacity and design of hybrid fiber-reinforced-polymer-steel reinforced concrete beams[J]. Advances in Structural Engineering. 2020.
[18] Tang Y, Sun Z Y(孙泽阳), Wu G. Compressive Behavior of Sustainable Steel-FRP Composite Bars with Different Slenderness Ratios[J]. Sustainability. 2019.
[19] Tang Y, Wu G, Sun Z Y(孙泽阳), et al. Seismic Performance of Underwater Bridge Columns Strengthened with Prestressed-Concrete Panels and FRP Reinforcement[J]. Journal of Composites for Construction, ASCE. 2019, 23(3): 4019019.
[20] Tang Y, Wu G, Sun Z Y(孙泽阳). Numerical Study on Seismic Behavior of Underwater Bridge Columns Strengthened with Prestressed Precast Concrete Panels and Fiber-Reinforced Polymer Reinforcements[J]. International Journal of Polymer Science. 2018.
[21] 高祥,孙泽阳,孙运楼,等. 部分无黏结复合筋混凝土梁变形能力研究[J]. 土木工程学报. 2021, 54S: 20-26.
[22] 孙泽阳,付林晨,冯德成,等. 集束玄武岩纤维筋黏结性能试验研究[J]. 建筑结构学报. 2019, 40(S1): 378-385.
[23] Sun Z Y(孙泽阳), Tang Y, Luo Y, Wu G, He X. Mechanical Properties of Steel-FRP Composite Bars under Tensile and Compressive Loading[J]. International Journal of Polymer Science, 2017 (DOI:10.1155/2017/5691278). (SCI、EI期刊)
[24] Sun Z Y(孙泽阳), Wu G, Wang Y, Wu Z S. Experimental Study on Concrete Columns Hybrid Reinforced by Steel and FRP Bars under Seismic Loading[J]. Journal of Southeast University (English Edition). 32(4): 439-444, 2016.Sun Z Y(孙泽阳), Wu G, Zhang J, Zeng Y H, Xiao W. Experimental study on concrete columns reinforced by hybrid steel-fiber reinforced polymer (FRP) bars under horizontal cyclic loading[J]. Construction and Building Materials. 130: 202-211, 2017 (DOI: 10.1016/j.conbuildmat.2016.10.001).
[25] Sun Z Y(孙泽阳), Wu G, Wu Z S, Zhang J. Nonlinear behavior and simulation of concrete columns reinforced by steel-FRP composite bars[J]. Journal of Bridge Engineering, ASCE. 19(2): 220-234, 2014 (DOI: 10.1061/(ASCE)BE.1943-5592.0000515). (SCI、EI期刊)
[26] Sun Z Y(孙泽阳), Yang Y, Qin W H, Ren S T, Wu G. Experimental study on flexural behavior of concrete beams reinforced by steel-fiber reinforced polymer composite bars[J]. Journal of Reinforced Plastics and Composites. 31(24), 53-61, 2012 (DOI: 10.1177/0731684412456446).(SCI、EI期刊)
[27] Sun Z Y(孙泽阳), Wu G, Wu Z S, Zhang M. Seismic behavior of concrete columns reinforced by steel-FRP composite bars[J]. Journal of Composites for Construction, ASCE. 15(5): 696-706, 2011 (DOI: 10.1061/(ASCE)CC.1943-5614.0000199)
[28] Sun Z Y(孙泽阳), Wu G, Wu Z S, Luo Y B. Flexural strengthening of concrete beams with near-surface mounted steel-fiber-reinforced polymer composite bars[J]. Journal of Reinforced Plastics and Composites. 30(18): 1529-1537, 2011 (DOI: 10.1177/0731684411427209).
[29] Wu G, Sun Z Y(孙泽阳), Wu Z S, Luo Y B. Mechanical Properties of Steel-FRP Composite Bars (SFCBs) and Performance of SFCB Reinforced Concrete Structures[J]. Advances in Structural Engineering. 15(4): 669-679, 2012
[30] 孙泽阳,吴刚,吴智深,张敏.钢-连续纤维复合筋增强混凝土柱抗震性能数值分析[J].土木工程学报, 45(5): 93-103, 2012.
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