基本信息

陈兵,上海交通大学长聘教授、博士生导师。

主要从事新型建筑材料的开发与工程应用研究,分别在低碳绿色胶凝材料和空调型墙体材料、机敏水泥基复合材料合成与表征等方面取得创新性研究成果:(1)基于天然材料(生土和植物秸秆)的微纳米孔隙结构,开发了具有保温调湿功能墙体材料;(2)基于磷酸镁水泥(MPC)高水化热协同激发机制,提出了工业废弃物中铝硅铁相在MPC中的无碱激活理论;(3)揭示了碳纤维水泥基复合材料渗流导电普适性和电阻——Kaiser记忆效应;(4)建立了混凝土内部破坏损伤类型与声发射信号对应关系,相关学术思想受到国内外同行关注。主持国家自然基金项目5项,铁道部科技研究开发计划重点项目1项,企业产品研发项目20余项。基于以上研究成果,以第一作者/通讯作者发表SCI检索论文250篇, SCI引用7500次;获得授权发明专利22项,完成9项技术转让;获得上海市技术发明奖二等奖(排名21项;建筑材料科学技术奖基础类二等奖(排22项,华夏建设科学技术奖二等奖(排21项,中国公路学会科学技术进步奖二等奖(排21项,非金属矿科学技术奖基础类二等奖(排21项。自2019年连续入选爱思唯尔中国大陆土木与结构工程学科高被引学者。


研究方向

新型建筑材料,研究领域主要包括:(1)水泥基材料组成、结构与性能;(2)无机-有机新型复合建筑材料的制备与性能分析;(3)机敏水泥基复合材料表征与无损检测技术;(4)空调型墙体材料研究与开发;(5)特种胶凝材料的研制与应用。


教育背景

1999.32002.3  同济大学 材料学专业 博士学位

1996.91999.3  同济大学 无机非金属材料专业 硕士学位

1992.91996.7  沈阳建筑大学 建筑材料专业 学士学位


工作经历

2014.1至今 上海交通大学船舶海洋建筑工程学院土木系 教授

2004.82013.12 上海交通大学船舶海洋建筑工程学院土木系 副教授

2007.82008.9 美国冷区房屋研究中心 访问学者

2002.4 - 2004.8 上海交通大学 建筑工程学院土木系 讲师


科研项目

  1. 磷硅水泥3D打印喷塑成型机理与打印性能研究,国家自然科学基金面上项目,54万元,2022-2025,主持
  2. 再生型磷硅水泥新材料及其用于淤泥质土植生固化机制研究,国家自然科学基金面上项目,60万元,2020-2023,主持
  3. 磷硅水泥基全植物茎杆骨料混凝土设计原理及保温调湿调控机制,国家自然科学基金面上项目,60万元,2018-2021,主持
  4. 基于生土材料空调型泡沫混凝土设计原理与传热调湿机理研究,国家自然科学基金面上项目,80万元,2014-2018,主持
  5. EPS轻质混凝土工程与力学性能研究,国家自然科学青年基金,20万元,2008-2010,主持
  6. 高速铁路无砟轨道维修技术的深化研究——用于板式无砟轨道损伤快速修复磷酸镁水泥开发与施工关键技术研究,铁道部科技研究开发计划重点项目,50万元,2013-2015,主持
  7. 基于脱硫石膏的硫氧镁钙水泥合成机理与强度形成机制研究,上海市科委“一带一路”国际合作项目,30万元,2020-2023,主持
  8. 磷石膏基硫氧镁钙水泥开发研究,企事业单位委托,50万元,2021-2023,主持
  9. 复合型有机高分子改性膨润土防渗垫层开发研究,企事业单位委托,50万元,2020-2022,主持
  10. 水下柔性密封材料开发研究,企事业单位委托,30万元,2019-2020,主持


论文发表


  1. Zhang, M., Chen, B*., Zhu, W. Performance and hydration mechanisms of ultrafine iron ore tailings enhanced supersulfated cement with high phosphogypsum content. Cement and Concrete Composites, 2025, 157, 105891. (SCI, Cited 0)
  2. Meng, X., Ahmad, M.R., Zhu, M., Chen, B*., Wang, L. Hydration mechanism and potential as solid-state electrolytes in sodium chloride-magnesium phosphate composite. Cement and Concrete Composites, 2025, 156, 105862 (SCI, Cited 0)
  3. Xiao, Y., Wang, C., Chen, B*., Understanding the role of MgO fineness on the performance of magnesium phosphate cement through multi-scale study. Construction and Building Materials, 2024, 455, 139095 (SCI, Cited 0)
  4. Xie, W., Chen, B*., Rong, H. Gas production and slurry expansion behavior of hydrogen peroxide foamed cement pastes. Construction and Building Materials, 2024, 454, 139006(SCI, Cited 0)
  5. Wang, Y., Chen, B*., Liu, N., Jiang, Z. Utilization of waste phosphogypsum in high-strength geopolymer concrete: Performance optimization and mechanistic exploration. Journal of Building Engineering, 2024, 98, 111253 (SCI, Cited 0)
  6. Ding, Y., Ahmad, M.R., Chen, B*., Yu, X. Ground granulated blast furnace slag-modified magnesium phosphate cement used as grouting material: Workability, mechanical property and corrosion resistance optimization. Journal of Building Engineering, 2024, 96, 110450(SCI, Cited 4)
  7. Zhu, M., Gu, K., Meng, X., Chen, B*., Design and performance of cost-effective green engineered cementitious composites with low drying shrinkage and self-healing. Journal of Building Engineering, 2024, 96, 110456 (SCI, Cited 1)
  8. Zhang, M., Zhu, M., Chen, B*.,  Liu, N., Jiang, Z. Utilizing raw phosphogypsum to prepare one-part geopolymer: Mechanical properties, optimization, and hydration mechanisms. Construction and Building Materials, 2024, 449, 138466 (SCI, Cited 1)
  9. Wang, Y., Weng, Y., Chen, B*.,  Enhancing compressive strength of phosphogypsum-based geopolymer cement with five alkaline activator combinations. Journal of Building Engineering, 2024, 95, 110352(SCI, Cited 3)
  10. Li, B., Chen, B*., Liu, N., Jiang, Z. Understanding the positive effects of silica fume on the high-temperature resistance and water resistance of magnesium oxysulfate cement. Construction and Building Materials, 2024, 445, 137820(SCI, Cited 0)
  11. Zhu, M., Ahmad, M.R., Wei, Z., Chen, B*., Characterization of cost-effective green engineered magnesium oxysulfide cement-based composites (MOSC-ECC) prepared by replacing MgO in magnesium oxysulfate cement with slag. Construction and Building Materials, 2024, 438, 137217(SCI, Cited 2)
  12. Zhang, M., Zhao, Y., Chen, B*.,  Efflorescence mitigation in fly ash/slag-based geopolymers: The role of precursor composition and proportions, and admixtures. Construction and Building Materials, 2024, 438, 137216(SCI, Cited 2)
  13. Meng, X., Jiang, Y., Chen, B*., Wang, L. Modification of magnesium phosphate cement with steel slag powder and ground blast furnace slag: Mechanism of hydration and electrical conductivity. Construction and Building Materials, 2024, 438, 137305(SCI, Cited 0)
  14. Wang, C., Vo, T.L., Rezania, M., Chen, B*.,  Influence of Uncalcined Coal Gangue on the Microstructure and Properties of Magnesium Ammonium Phosphate Cement. Journal of Materials in Civil Engineering, 2024, 36(8), 04024201(SCI, Cited 2)
  15. Zhang, M., Yue, F., Chen, B*.,  Optimizing toughness and cost-effectiveness in one-part geopolymers via fiber reinforcement: A comprehensive investigation of PVA, PE, and glass fibers. Construction and Building Materials, 2024, 437, 136999 (SCI, Cited 3)