研究方向 纤维增强复合材料(FRP) FRP筋混凝土结构 地聚物混凝土 科研项目 国家重点研发计划项目课题, 海洋环境下热塑性复合材料筋长期服役性能评价与控制方法, 2022.10-至今. 参与 国家重点研发计划项目课题, 在役钢筋混凝土桥梁抗震韧性提升关键技术研究, 2024.01-至今. 参与 代表性论著 [1] Liu Shui, Wang Xin, Wu Zhishen, et al. Experimental and numerical study on concrete columns reinforced with BFRP and steel bars under eccentric loading[J]. Journal of Composites for Construction-ASCE, 2025, 29(2): 04025010. (SCI,) [2] Liu Shui, Wang Xin, Wu Zhishen, et al. Design methods and recommendations for flexural concrete beams reinforced with steel-fiber composite bars[J]. Engineering Structures, 2024, 310: 118139. (SCI,) [3] Liu Shui, Wang Xin, Wu Zhishen, et al. Evaluation of deflection calculation for hybrid-reinforced concrete with fiber-reinforced polymer and steel bars [J]. ACI Structural Journal, 2024, 121(4). (SCI) [4] Liu Shui, Wang Xin, Wu Zhishen, et al. Post-yielding deflection calculation of flexural hybrid reinforced concrete with a combination of FRP and steel bars[J]. Advances in Structural Engineering, 2024, 27(12):2067-2082. (SCI,) [5] Liu Shui, Wang Xin, Wu Zhishen, et al. Experimental study on eccentric compression behavior of slender rectangular concrete columns reinforced with steel and BFRP bars[J]. Engineering Structures, 2023, 293: 116626. (SCI) [6] Liu Shui, Wang Xin, Wu Zhishen, et al. Flexural Performance and Design of Concrete Beams Reinforced with BFRP and Steel Bars[J]. Journal of Composites for Construction-ASCE, 2023, 27(6): 04023062. (SCI) [7] Liu Shui, Wang Xin, Wu Zhishen, et al. Flexural behavior and design of under-reinforced concrete beams with BFRP and steel bars[J]. Engineering Structures, 2022, 263: 114386. (SCI) [8] 刘水, 汪昕, 吴智深. FRP筋-钢筋混合配筋混凝土受弯构件短期刚度计算方法[J]. 工程力学. (EI) [9] 刘水,汪昕,吴智深,等. 混合配筋混凝土柱偏心受压力学性能试验研究[J]. 哈尔滨工程大学学报. (EI) [10] Wang Xin, Liu Shui, Wu Zhishen, et al. Integrated High-Performance Concrete Beams Reinforced with Hybrid BFRP and Steel Bars[J]. Journal of Structural Engineering-ASCE, 2022, 148(1): 04021235. (SCI) [11] Ding Jian, Wang Xin, Liu Shui, et al. Phase-field anisotropic damage with bond-slip model for reinforced concrete beam under the service load[J]. Engineering Fracture Mechanics, 2024: 110317. (SCI) [12] Ali Y M. S., Wang Xin, Liu Shui, et al. Behavior of Concrete Bridge-Deck Slabs Reinforced with Basalt Fiber-Reinforced Polymer and Steel Bars[J]. ACI Structural Journal, 2023, 120(5). (SCI) [13] Ding Jian, Wang Xin, Sun Zhen, Liu Shui, et al. Research on the cracking risk index of massive concrete based on Chemo-Thermo-Hygro-Mechanical multi-field coupling model[J]. Journal of Building Engineering, 2024, 111190. (SCI) [14] Ali Y M S, Wang Xin, Ding Lining, Liu Shui, et al. Experimental and numerical investigations of the effects of various tensile reinforcement types on the structural behavior of concrete bridge deck slabs[J]. Engineering Structures, 2023, 285: 116036. (SCI) [15] Su Chang, Wang Xin, Ding Lining, Liu Shui, et al. Prediction of long-term durability of unidirectional/multidirectional basalt fiber-and hybrid fiber-reinforced polymer profiles under concrete environment[J]. Construction and Building Materials, 2023, 384: 131248. (SCI) [16] Ali Y M S, Wang Xin, Abdelaleem T, Liu Shui. Numerical study on the structural performance of the continuous concrete slabs reinforced with hybrid BFRP/steel bars[J]. Structural Concrete, 2023, 24(4): 4917-4941. (SCI) [17] Su Chang, Wang Xin, Ding Lining, Liu Shui, et al. Flexural property and design method evaluation of BFRP and steel bars hybrid reinforced concrete beams[J]. Structural Concrete, 2023, 24(4): 4942-4959. (SCI)
横向服务 业主委托科研项目:玄武岩纤维FRP在桥隧部分领域中的寿命提升关键应用技术研究,(2022.04-2024.12)参与 业主委托科研项目:黄茅海大桥、高栏港大桥巨型索塔混凝土抗裂设计,(2021.06-2022.12)参与
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⟡ 主/参编标准 [1] 《Specifications for FRP bars and FRP grids》, 国际标准化组织ISO标准. 参与 [2] 《Fibre reinforced polymer (FRP) reinforcement of concrete-Test methods-Part 1: FRP bars》, 国际标准化组织ISO标准. 参与 [3] 《Fibre reinforced polymer (FRP) reinforcement of concrete-Test methods-Part 4: FRP grids》, 国际标准化组织ISO标准. 参与 [4] 《纤维增强复合材料增强混凝土结构技术规程》, 中国土木工程学会标准, 参与 |
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