方从启

发布单位:人员机构编辑:发布日期:2019/09/23浏览量:977

方从启

出生年月

职务职称

教授

学历/学位

博士研究生毕业/博士

所属单位

建工学院土木工程系

联系方式

办公室电话:++86-21-57123505;手机:13916675115

电子邮箱:congqifang@msn.com

个人简介

方从启教授、博士、博导,现为土木工程系教授、桥梁与隧道工程学术带头人,上海交通大学博士生导师。主要从事结构耐久性、桥梁工程、节能环保材料等领域的研究。方从启1998年毕业于同济大学(导师:中国科学院院士孙钧教授)获得博士学位,此后长期在上海交通大学从事教学和科学研究及培养博士、硕士研究生,他在混凝土结构耐久性领域的研究处于国际前沿并产生影响,其中在钢筋腐蚀引起混凝土构件耐久性退化方面的研究处于领先水平。2003—2004年为瑞典政府SI学者及Chalmers理工大学客座教授(Guest Professor);2001年为新加坡政府TCT学者,在南洋理工大学访问研究(研究员)。主持国家自然科学基金、国际合作科研项目、铁道部科研计划重点项目、上海市自然科学基金等国家和省部级科研项目七项。方从启教授共发表论文100多篇,其中SCI论文29篇,EI检索论文33篇;在混凝土研究领域国际著名期刊Cement and Concrete ResearchMagazine of Concrete Research等国际著名期刊发表Q1Q2类论文13篇,上海交大A/B档期刊14篇(其中A6篇);发表的SCI论文被SCI核心他引300多次,其中单篇最多核心他引140多次。方从启博士申请国家和国际专利40多项,其中已经获得授权和公布发明专利28项,国际(美国)授权发明专利1项。方从启教授在结构耐久性和桥梁评估领域的研究成果获得上海市科学技术奖2项(20152017,均为第一完成人,所在上海交通大学为第一完成单位)。方从启教授兼任英文期刊The Open Construction and Building Technology Journal编委(2006-)、国际桥梁安全与维护学会(IABMAS)中国团组理事(2012-)。

  方从启教授从教近30年,在上海交通大学、江苏大学和上海师范大学培养了大批优秀人才,其中博士研究生6名,硕士研究生20多名,本科生2000多名(江苏大学、上海交通大学、上海师范大学)。他主讲本科课程和研究生课程60多门/次,其中在上海交通大学主讲的全英文研究生学位课程《Elasticity and Plasticity in Civil Engineering》,是最重要课程之一,面向全校学生开放选课。

代表性论文

[1] Mohammad Parsaeimaram, Congqi Fang*, Xianqi Luo, Chandan Shakya, Seismic performance evaluation of Double-Skin semi-base-isolated building using incremental dynamic analysis, Advances in Civil Engineering, Vol. 2018, 1-19 (SCI)

[2] Congqi Fang*, Zhijie Yuan, Shuai Yang and Junmeng Zhang, Performance of corroded bridge piers under cyclic loading, Proceedings of The Institution of Civil Engineers-Bridge Engineering, 170(4)(2017)255-270 SCI(期刊论文

[3] Zhijie Yuan, Congqi Fang*, Mohammad Parsaeimaram, Shuai Yang, Cyclic behavior of corroded reinforced concrete bridge piers, ASCE Journal of Bridge Engineering227)(201704017020:1-21. SCI

[4] Chen, X, Fang, C.Q., Wang, X., The influence of surface effect on vibration behaviors of carbon nanotubes under initial stress, PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES, 85(2017)47-55SCI

[5] Guo D, Fang CQ, Wang X, Lu G, Dynamic inversion characteristics of composite reinforced tubes, European Journal of Mechanic A-SOLIDS, 63(2017)53-67SCI

[6] Yang WD, Fang CQ, Wang X, Nonlinear dynamic characteristics of FGCNTs reinforced micro-beam with piezoelectric layer based on unifying stress-strain gradient framework, Composites Part B-Engineering, 111(2017)372-386SCI

[7] Fang Congqi*, Yuan Zhijie, Yang Shuai, Zhang Junmeng, Analysis of seismic performance of corroded reinforced concrete bridge piers, Proceedings of 8th International Conference on Bridge Maintenance, Safety and Management, IABMAS 2016: pp2099-2016, June 26, 2016 - June 30, 2016; Foz do Iguaçu, Brazil. EI

[8]W.D. Yang, X. Wang*, C.Q. Fang (方从启)Pull-in instability of carbon nanotube-reinforced nano-switches considering scale, surface and thermal effectsComposites Part B 82 (2015) 143-151. ISSN: 1359-8368SCI, Q1

[9] W.B. Kang, Y.D. Li, W. Chen, X. Wang*, C.Q. Fang (方从启)Interlaminar stresses in piezoelectric laminated composite shells under electric, thermal and mechanical loadsEuropean Journal of Mechanics A/Solids 54 (2015) 198-208.

[10] S. Yang, C.Q. Fang*, Z.J. Yuan and M.Y. YiEffect of reinforcement corrosion and repeated loads on performance of reinforced concrete beam, Advances in Structural Engineering, Vol. 18 No. 820151257-1271. SCI

[11] J. S. Lin, X. Wang, C.Q. Fang, X. Huang, Collapse loading and energy absorption of fiber-reinforced conical shells, Composites Part B, 74(2015)178-189. SCI/Q1/交大B

[12] H.B. Li, X. Wang*, C.Q. Fang, Anisotropic phase field solution for morphological evolution and migration of inclusions in piezoelectric films, Applied Mathematical Modelling 39 (2015) 3745–3757. SCI/Q1/交大B

[13] H.B.Li,Y.D.Li, X.Wang*, C.Q.Fang, Nonlinear resonant behaviors of grapheme sheet affixed on an elastic medium considering scale and thermal effects, PhysicaE 72(2015)178–188. SCI/Q3/交大C

[14] Zhaolong Han, Dai Zhou, Tao He, Jiahuang Tu, Chunxiang Li, Kenny C.S. Kwok, Congqi Fang, Flow-induced vibrations of four circular cylinders with square arrangement at low Reynolds numbers, Ocean Engineering, 96(2015)21-33. SCI/Q2/交大A

[15] Jiahuang Tu, Dai Zhou, Yan Bao, Congqi Fang, Kai Zhang, Chunxiang Li, Zhaolong Han, Flow-induced vibration on a circular cylinder in planar shear flow, Computers & Fluids, 105(2014)138-154. SCI/Q2/交大B

[16] Zhaolong Han, Dai Zhou, Jiahuang Tu, Congqi Fang, Tao He, Flow over two side-by-side square cylinders by CBS finite element scheme of Spalart-Allmaras model, Ocean Engineering 87(2014)40-49. SCI/Q1/交大A

[17] W. D. Yang, X. Wang, C.Q. Fang, G. Lu, Electromechanical coupling characteristics of carbon nanotube reinforced cantilever nano-actuator, Sensors and Actuator A: Physical, 220(2014)178-187. SCI/Q1/交大A

[18] Congqi Fang*, Shuai Yang, Zhang Zhang, Bending characteristics of corroded reinforced concrete beam under repeated loading, Structural Engineering and Mechanics, 47(6)(2013) 773-790. SCI/Q3

[19] Wang Y. L., Liu X. L., Fang C. Q., Damage Detection of Bridges by Using Displacement Data of Two Symmetrical Points, Journal of Performance of Constructed Facility, 26(3)(2012) 300-311. SCI

[20] Congqi Fang*, Karin Lundgren, Liuguo Chen, Chaoying Zhu, Corrosion influence on bond in reinforced concrete. Cement and Concrete Research, 34(11)(2004) 2159-2167. SCI/Q1/交大A/IF=5.70
[21]
Congqi Fang*, Kent Gylltoft, Karin Lundgren, Mario Plos, Effect of corrosion on bond in reinforced concrete under cyclic loading. Cement and Concrete Research,36(3)(2006) 548-555. SCI/Q1/交大A/IF=5.70
[22]
Congqi Fang*, Bond strength of corroded reinforcement under cyclic loading, Magazine of Concrete Research, 2006,58,No.7,437-446. SCI/Q2
[23]
Congqi Fang*, Karin Lundgren, Mario Plos, Kent Gylltoft, Bond behaviour of corroded reinforcing steel bars in concrete. Cement and Concrete Research,36(10)(2006)1931-1938. (SCI & EI) SCI/Q1/交大A/IF=5.70

[24] Congqi Fang*, Shuai Yang, Cracking characteristics of corroded RC beams under repeated loading. Magazine of Concrete Research, Magazine of Concrete Research, 63(12)(2011) 941-952. SCI/Q2

[25] Congqi Fang*, Shuai Yang, Zhang Zhang, Bending characteristics of corroded reinforced concrete beam under repeated loading, Structural Engineering and Mechanics, 6(47)(2013)773-790. SCI
[26]
Congqi Fang*Meiying YiShujian ChengLoad carrying capacity of corroded reinforced concrete beams subjected to repeated load, International Journal of Modern Physics B, Vol. 22Nos.31&32 (2008)5515-5520. SCI/Q2

[27] B. Chen, C. Fang, Contribution of fibres to the properties of EPS lightweight concrete. Magazine of Concrete Research, 61(9)(2009)671-678. SCI/Q2
[28] B. Chen,
C. Fang, Mechanical properties of EPS lightweight concrete. Proceedings of Institution of Civil Engineers: Construction Materials, 164(4)(2011)173-180. EI
[29]. Shuai Yang,
Congqi Fang* and Zhijie Yuan, Study on Mechanical Properties of Corroded Reinforced Concrete Using Support Vector Machines, Applied Mechanics and Materials, Vols. 578-579 (2014)1556-1561. EI

[30] Congqi Fang*, Meiying Yi. Seismic performance of a reinforced lightweight aggregate concrete frame, Key Engineering Materials. Vols. 340-341(2007) 1139-1144. EI
[31] Congqi Fang*, Xinjian Kou, Liuguo Chen, Bing Chen, Chaoying Zhu, Experimental study of the effect of reinforcement corrosion on bond strength. Key Engineering Materials, Vols. 274-276 (2004), 1041-1046. EI
[32]
Fang Congqi*, Cheng Shujian. Steel corrosion in concrete using electrolytic acceleration, International Symposium on Innovation and Sustainability of Structures in Civil Engineering, NOV 28-30, 2007 ISISS '2007: PROCEEDINGS OF THE INNOVATION AND SUSTAINABILITY OF STRUCTURES, VOLS 1 AND 2,929-938
[33]
Fang Cong-qi*, Kou Xin-jian, The effect of steel corrosion on bond strength in concrete structures, Journal of Shanghai Jiaotong University (Science), E-10(4) (2005)436-440. EI

代表性发明专利

[1]抗氯离子耐久性水泥,美国专利(2017

[2] 纤维增强混凝土复合保温永久性模板,国家发明专利(2017)

[3] 一种防水型泡沫混凝土永久性保温模板,国家发明专利(2017

[4] 防裂抗渗超薄板壳管构件的纤维混凝土及配置方法和利用,国家发明专利(2016

[5] 用于永久性模板的纤维混凝土及永久性模板装置,国家发明专利(2015

[6] 一种纤维增强混凝土永久性模板及其制作方法,国家发明专利(2015

[7] 一种泡沫混凝土材料及其制备方法,国家发明专利(2015

[8]一种用于混凝土结构的液压预警方法及装置,国家发明专利(2014
[9]
一种基于树突式的数据采集方法及装置,国家发明专利(2014
[10]
一种用于混凝土结构的实时监测方法及装置,国家发明专利(2014
[11]
海工混凝土墩体的钢筋防侵锈方法及装置,国家发明专利(2013
[12]
斜拉桥多层式锚固方法,国家发明专利(2010
[13]
用于混凝土构件的钢筋防锈方法,国家发明专利(2011
[14]
预埋式钢筋锈蚀率监测仪,国家发明专利(2010
[15]
水泥混凝土路面拉杆,国家发明专利(2011

[16]利用废旧轮胎和三角带建造挡土墙的方法,国家发明专利(2010
[17]
用聚丙烯翼缘式井管建造水井的施工方法,国家发明专利(2010
[18]
预埋式混凝土碳化深度检测装置,国家发明专利(2009
[19]
桥梁挠度监测系统,国家发明专利(2009
[20]
竖杆式桥梁挠度监测系统,国家发明专利(2009
[21]
可更换的埋入式光纤应变传感器,国家发明专利(2009
[22]
可替换埋入式传感装置,国家发明专利(2008

代表性科研项目

[1]上海市科委重点专项“零碳建筑高效隔热墙体研发与应用”,2018-2021,主持

[2] 国家自然科学基金“干湿循环和腐蚀环境下混凝土桥墩抗侧向冲击性能研究”2012—2015,主持

[3] 国家自然科学基金“腐蚀环境与地震荷载共同作用下钢筋与混凝土的粘结退化研究”2011-2012,主持

[4] (原)铁道部科研计划重点项目“高速铁路跨海大桥桥墩耐久性设计与安全监测技术研究”2011—2013,主持

[5] 上海市自然科学基金“反复荷载作用下受腐蚀钢筋与混凝土的粘结退化”,2005—2007,主持

[6] 国际合作科研项目“Green Cement for Sustainable Construction”2011-2014,项目负责人

[7] 上海市城建委员会科研项目“上海市桥梁运行安全受控技术研究”,2006—2009,主持

[8] 产学研项目“用于混凝土构件的钢筋防锈方法-专利权转让和成果应用”,2012,项目负责人

[9] 产学研项目“节能环保混凝土建筑构件开发和应用”,2014-至今,项目负责人


获奖和荣誉

1)上海市技术发明二等奖20151):大型混凝土结构耐久性强化与监测新技术。

2)上海市技术发明三等奖(2017,第1):混凝土结构预警防护一体化技术。

3)瑞典政府SI学者(基金),2003

4)瑞典政府SI学者(基金),2004

51998-2017在交大任职期间,共9次获得优秀教师、年度考核和聘期考核优秀。