研究方向 混凝土强韧化、高性能混凝土 科研项目 · 纳米颗粒改性负温水泥基材料结构与性能研究,冻土工程国家重点实验室开放基金, 2020/01-2022/12, 参与 · 基于高吸水聚合物释水留孔的抗冻混凝土及其性能研究,国家自然科学基金委员会面上项目, 2021/01-2024/12, 参与 · 交通基础设施材料性能高精度预测技术研究,国家重点研发计划, 2022/12-2025/11, 参与 代表性论著 [1] Lingbo Yu; Shuai Bai; Xinchun Guan; Effect of graphene oxide on microstructure and micromechanical property of ultra-high performance concrete, Cement and Concrete Composites,2023, 138: 104964 (SCI/EI) [2] Lingbo Yu; Shuai Bai; Xinchun Guan; Effect of multi-scale reinforcement on fracture property of ultra-high performance concrete, Construction and Building Materials, 2023, 397:132383 (SCI/EI) [3] Lingbo Yu; Shuai Bai; Xinchun Guan; Graphene oxide–silica nanocomposites reinforced mortars: Mechanical properties, permeability and microstructure, Construction and Building Materials, 2022, 344: 128290-128290 (SCI/EI) [4] Xinchun Guan; Lingbo Yu; Hui Li; Experimental study on fracture mechanics of cementitious materials reinforced by graphene oxide–silica nanocomposites, Construction and Building Materials, 2022, 325: 126758 (SCI/EI) [5] Shuai Bai; Lingbo Yu; Xinchun Guan; Hui Li; Jinping Ou; Comparative study on effects of pozzolanic nano-SiO2 and non-pozzolanic nano-TiO2 on the microstructure and macro properties of cement paste subjected to early-age frost attack, Cold Regions Science and Technology, 2023, 210:103841 (SCI/EI) [6] Shuai Bai; Lingbo Yu; Xinchun Guan; Hui Li; Jinping Ou; Study on the long-term chloride permeability of nano-silica modified cement pastes cured at negative temperature, Journal of Building Engineering, 2022, 57:104854. (SCI/EI) [7] Shuai Bai; Lingbo Yu; Yankui Jian; et.al; Study on the influence of early frost attack on the performance of cement mortar, Cold Regions Science and Technology, 2024, 228: 104329. (SCI/EI) [8] Shuai Bai; Lingbo Yu; Xinchun Guan; Hui Li; Experimental study on the effect of nano-SiO2 on long-term properties of negative-temperature cement paste, Cement and Concrete Composites, 2025, 157: 105916. (SCI/EI) |
