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个人简介

1996年毕业于沈阳建筑工程学院,获工学学士学位; 1999年毕业于同济大学,获工学硕士学位; 2002年毕业于同济大学,获工学博士学位; 2002年至今,上海交通大学任教; 2007年至2008年,美国寒冷地区房屋研究中心(CCHRC)公派访问学者。 科研项目 主持在研和完成的纵向科研项目: 1)国家自然科学基金项目(No.51378309):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; 2)铁道部科技研究开发计划重点项目(2013G008‐F):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; 3)国家自然科学基金项目(No.50708059):EPS轻质混凝土工程与力学性能研究; 4)国家留学基金委回国人员启动基金:MPC-EPS高性能混凝土研究; 5)教育部先进土木材料重点实验室开放基金:高性能磷酸镁水泥研究与开发; 主持在研和完成的横向科研项目: 1)大体积三级配泵送温控混凝土配制技术研究; 2)水下不分散混凝土浇筑施工技术研究; 3)生态绿色胶凝材料开发研究; 4)加固材料开发 教授课程: 《土木工程材料》;《建筑材料与施工》 软件版权登记及专利 [1]Chen Bing. Solidifying sludge. USA WIPO Patent WO/2013/063774A1 [2] 陈兵,陈龙珠. 聚苯乙烯泡沫颗粒保温砂浆, 国家发明专利(ZL 200410053031.X); [3] 陈兵,陈龙珠.道路吸音高弹性混凝土材料,国家发明专利(ZL 200610024501.9). [4] 陈兵, 陈龙珠. 高性能水泥基自流平材料,国家发明专利(ZL 200410053030.5.) [5] 陈兵, 陈龙珠. 用于金属表面除锈防腐浆料及处理方法,国家发明专利(ZL 200810203442.0.) 已技术转化 [6] 陈兵, 陈龙珠.透水混凝土路面制备方法,国家发明专利(ZL 200710039121.7.) [7] 陈兵.多功能抗渗微晶混凝土防水添加剂,国家发明专利(ZL 200710037886.7) 已技术转化 [8] 陈兵, 陈龙珠.环保型多功能建筑刮墙腻子,国家发明专利(ZL 200610027993.7) 已技术转化 [9] 陈兵, 陈龙珠.建筑饰面水泥基人造石材,国家发明专利(ZL 200710036793.2),已技术转化 [10] 陈兵, 陈龙珠.砂浆抗裂剂,国家发明专利(ZL 200610025870.X) 已技术转化 [11] 陈兵, 陈龙珠.多功能胶凝材料,国家发明专利(ZL200810201247.4). [12] 陈兵, 陈龙珠. 用于喷涂的混凝土建筑材料,国家发明专利(ZL200810202644.3). 已技术转化 [13] 陈兵. 水性渗透结晶防水材料及其制备方法,国家发明专利(ZL200910308290.5). [14] 陈兵. 绿化植被混凝土及其施工方法, 国家发明专利(ZL201010553970.6). [15] 陈兵. 水性混凝土密封硬化剂及其制备方法, 国家发明专利(ZL201010543000.8). [16] 早强微膨胀钢纤维道路混凝土, 国家发明专利(ZL200610027169.1). [17] 陈兵.用于填充方钢管的粉煤灰膨胀自密实混凝土, 国家发明专利(ZL200710037311.5) 荣誉和奖励 2011年,碳纤维增强水泥基复合材料的机敏性研究,上海市自然科学奖三等奖(排二) 2010年,三级配泵送温控混凝土实验研究,中国水力发电工程学会科技进步奖三等奖(排四)

研究领域

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.机敏水泥基材料的研究以及水泥基材料的无损检测; 4.空调型型墙体材料研究与开发; 5.特种胶凝材料的研制与应用。

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

[1] Ma Cong, Chen Longzhu, Chen Bing*.Analysis of strength development in soft clay stabilized with cement-based stabilizer. Construction and Building Materials. 71(2014):354-362. (SCI, Ei 检索) [2]]Liu Ning, Chen Bing*.Experimental study of the influence of EPS particle size on the mechanical properties of EPS lightweight concrete. Construction and Building Materials. 68(2014):227-232. (SCI, Ei 检索) [3] Chen Bing*, Liu Ning. Experimental research on properties of fresh and hardened rubberized concrete. Journal of Materials in Civil Engineering,26(2014):25-32. [4]Li Yue, Chen Bing*. Study of a new type of super-lightweight magnesium phosphate cement foamed concrete. Journal of Materials in Civil Engineering, online. [5]Li Yue, Liu Ning, Chen Bing*. Properties of lightweight concrete composed of magnesia phosphate cement and expanded polystyrene aggregates. Materials and Structures. online [6]Li Yue, Sun Jia, Chen Bing*. Experimental study of magnesia and M/P ratio influencing properties of magnesium phosphate cement. Construction and Building Materials. 65(2014):177-183. (SCI, Ei 检索) [7] Fa Shijian, Chen Bing*. Experimental study of phosphate salts influencing properties of magnesium phosphate cement. Construction and Building Materials. 65(2014):480-486. (SCI, Ei 检索) [8] Ma Cong, Bu Yuhua, Chen Bing*. Preparation and Performance of a Lignosulfonate-AMPS-Itaconic Acid Graft Copolymer as Retarder for Modified Phosphoaluminate. Construction and Building Materials. 60(2014):25-32. [9] Li Yue, Chen Bing*. Factors that affect the properties of magnesium phosphate cement. Construction and Building Materials. 47(2013):977-983. 他引3次 [10] Chen B*, Liu N, A novel lightweight concrete-fabrication and its thermal and mechanical properties, Construction and Building Materials,44(2013):691-698. 他引1次 [111] Wu Zh, Chen B*,Liu N. Fabrication and compressive properties of Expanded polystyrene foamed concrete: Experimental research and modeling, Journal of Shanghai Jiaotong University (Science),18(2013):61-69. [12] Chen B*,Wu Zh, Liu N. Experimental research on properties of high strength foamed concrete, Journal of Materials in Civil Engineering, 24(2012):113-118. 他引7次 [13] Chen B*,Liu X and Li SP. Performance investigation of square concrete-filled steel tube columns, Journal of Wuhan University of Technology-Materials Science, 26(2011):730-739. [14] Chen B*,Fang CQ. Mechanical properties of EPS lightweight concrete, Construction Materials,164(2010):173-178. 他引2次 [15] Chen B*, Liu J and Chen LZ, Experimental study of lightweight expanded polystyrene aggregate concrete containing silica fume and polypropylene fibers, Journal of Shanghai Jiaotong University (Science), 61(2010): 1-678. [16] Chen B*, Fang CQ, Contribution of fibers to the properties of EPS lightweight concrete, Magazine of Concrete, 61(2009):671-678. 他引2次 [17] Chen B*, Li CL and Chen LZ. Experimental study of mechanical properties of normal-strength concrete exposed to high temperatures at early age, Fire Safety Journal, 44(2009):997-1002. 他引20次 [18] Chen B*, Liu JY, Damage in carbon fiber-reinforced concrete, monitored by both electrical resistance measurement and acoustic emission analysis, Construction and Building Materials,22(2008)2196-2201. 他引33次 [19] Chen B*, Liu JY, Experimental application of mineral admixtures in lightweight concrete with high strength and workability, Construction and Building Materials, 22(2008)655-659. 他引27次 [20] Chen B*, Liu JY, Mechanical properties of polymer-modified concretes containing expanded polystyrene beads, Construction and Building Materials, 21(2007)7-11. 他引34次 [21] Chen B*, Liu JY, Investigation of effects of aggregate size on the fracture behavior of high performance concrete by acoustic emission, Construction and Building Materials, 21(2007)1696-1701. 他引14次 [22] Chen B*, Liu JY, Contribution of hybrid fibers on the properties of the high-strength lightweight concrete having good workability, Cement and Concrete Research, 35(5)(2005) 913-917. 他引51次 [23] Chen B*, Keru Wu, Wu Yao, Study on the smart behavior of cement-based composite containing carbon fibers under three-point-bending load, Journal of Wuhan University of Technology-materials Science Edition, 20(4)(2005) 128-131. [24] Chen B*, Liu JY, Wu KR, Electrical response of carbon fiber reinforced cementitious composites to monotonic and cyclic loading, Cement and Concrete Research, 35(11)(2005)2183-2191. 他引8次 [25] Chen B*, Liu JY, Properties of lightweight expanded polystyrene concrete reinforced with steel fiber, Cement and Concrete Research,34(7)(2004)1259-1263. 他引83次 [26] Chen B*,Wu K, Yao W, Piezoresistivity in carbon fiber reinforced cement based composites, Journal of Materials Science & Technology, 20(6)(2004)746-750. 他引16次 [27] Chen B*,Liu JY, Experimental study on AE characteristics of three-point-bending concrete beams, Cement and Concrete Research, 34(3)(2004) 391-397. 他引36次 [28] Chen B*,Liu JY, Residual strength of hybrid-fiber-reinforced high strength concrete after exposure to high temperature, Cement and Concrete Research,34(6)(2004) 1065-1069. 他引93次 [29] Chen B*,Liu JY, Effect of aggregate on the fracture behavior of high strength concrete, Construction and Building Materials,18(8)(2004) 585-590. 他引49次 [30] Chen B*, Wu K, Yao W,Conductivity of carbon fiber reinforced cement-based composites, Cement and Concrete Composites,26(4)(2004) 291-297. 他引92次 [31]Chen Bing*, Liu JY, Effect of fibers on expansion of concrete with a large amount of high f-CaO fly ash, Cement and Concrete Research, 33 (10) (2003): 1549-1552.他引9次 [32]Wu KR*, Chen Bing, Yao W. Study of the influence of aggregate size distribution on mechanical properties of concrete by acoustic emission technique, Cement and Concrete Research, 31(6) (2001): 919-923.他引43次 [33] Wu KR*, Chen Bing, Yao W,et al. Effect of coarse aggregate type on mechanical properties of high-performance concrete, Cement and Concrete Research, 31(10) (2001): 1421-1425.他引78次 [34] Wu KR*, Chen Bing, Yao W. Study on the AE characteristics of fracture process of mortar, concrete and steel-fiber-reinforced concrete beams, Cement and Concrete Research, 30(9) (2000): 1495-1500.他引36次 [35]Yao W, Chen Bing, Wu KR*. Smart Behavior of carbon fiber reinforced cement-based composite, Journal of Materials Science & Technology, 19(3) (2003): 239-242. 他引32次

学术兼职

1)2010年至今,Materials Science 编委

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