陈驹（结构工程研究所）

姓名:陈驹

职称职务：副教授

联系电话：88208719

电子邮箱：cecj@zju.edu.cn

2002年9月—2003年1月 浙江大学土木工程学系，硕士研究生，工学硕士

2003年1月—2004年12月 香港科技大学土木工程学系，博士研究生

2005年1月—2007年5月 香港大学土木工程学系，博士研究生，工学博士

2007年6月—2009年6月 浙江大学建筑工程学院，师资博士后

2009年6月—2010年12月 浙江大学建筑工程学院，讲师

2010年12月—至今 浙江大学建筑工程学院，副教授

 

 负责的科研项目：

 

[1].现代钢-混凝土组合结构技术应用研究，纵向，科技部，N20120178-01, 2012-02-01，2015-12-31, 陈驹

[2] 基于屈曲约束支撑的锅炉钢结构研发设计, 横向，东方电气集团东方锅炉股份有限公司，KH20160230, 2016-01-01,2017-12-31,陈驹

[3] 苏通长江大跨越内配钢筋/型钢钢管混凝土受拉性能试验研究,横向，国网上海电力公司，H20151789, 2015-05-25,2016-05-01,陈驹

[4].(超)大型塔式锅炉钢结构基础技术研发，横向，东方电气集团东方锅炉股份有限公司，H20120132, 2011-12-01，2012-12-31，陈驹

[5].中空夹层钢管混凝土构件及节点试验研究，横向，浙江省电力设计院，H20132469， 2013-04-01，2013-12-31，陈驹

[6].锅炉煤仓间联合结构设计技术研究，横向，东方电气集团东方锅炉股份有限公司，H20131803， 2013-08-29，2014-08-31，陈驹

[7]. 国家自然基金重点项目子课题，“基于全寿命的混凝土结构耐久性基础研究”，2010-2012.

[8]. 国家自然基金项目，“薄壁圆钢管混凝土相贯节点力学性能和工作机理研究”，2011-2014.

[9]. 浙江省自然基金项目，“钢-混组合连续梁负弯矩区耐久性研究-以九堡大桥为例”，2010-2013.

[10]. 浙江省科技公益性项目，“钢混组合结构超高输电塔的动力灾变关键效应和防灾技术研究”，2011-2012.

[11]. 浙江省钱江人才计划, “钢管混凝土相贯节点动力性能研究”，2011-2012.

[12]. 中国博士后特别基金，“高强薄壁钢组合构件及抗火性能研究”，2008-2009.

[13]. 中国博士后基金，“高强薄壁复杂截面冷弯型钢研究”，2008-2009.

[14]. 浙江省教育厅科研项目，“基于浙北1000kV变电构架的新型管材设计研究”，2009-2010.

 

代表性论文或著作：

 

[1]     Xu Fei, Chen Ju*, Jin Weiliang. Experimental investigation of concrete-filled steel tubular longitudinal gusset plate connections[J]. Journal of Constructional Steel Research, 2016,124(9), 163-172. (SCI)

[2]     Xu Fei, Chen Ju*, Jin Weiliang. Punching shear failure of concrete-filled steel tubular CHS connections[J]. Journal of Constructional Steel Research, 2016,124(9), 113-121. (SCI)

[3]     Chen Ju*, Wang jun, and Jin Wei-liang. Study of magnetically driven concrete[J]. Construction and Building Materials, 2016, 121(9), 53-59.

[4]     Wang weilun, Chen Ju*, Jin Weiliang. Experimental Investigation of Corroded Stud Shear Connectors Subjected to Fatigue Loading[J]. 2016, DOI: 10.1061/(ASCE) MT.1943-5533.0001688.

[5]         Chen Ju, Zhao Yu-xi*, Wu Lin, and Jin Wei-liang. Experimental investigation and design of corroded stud shear connectors[J]. Advances in Structural Engineering. 2016, 19(2), 218-226. doi:10.1177/1369433215624327 (SCI)

[6]     Chen Ju, Wang Jun, Xie Fang*, Duan An. Behavior of thin-walled dodecagonal section double skin concrete-filled steel tubular beam-columns[J]. Thin-walled Structures, 2016, 104(1), 135-143. (SCI)

[7]     Ju Chen*, JunWang, FangXie*, Wei-liang Jin. Behavior of thin-walled dodecagonal section double skin concrete-filled steel tubes under bending[J]. Thin-walled Structures, 2016, 98(2), 293-300. (SCI)

[8]     Ju Chen*, Dawei Zhang, Wei-liangJin. Concrete-Filled Steel and Steel Tubular T-Joints under Cyclic in-Plane Bending[J]. Advances in Structural Engineering, 2015, 18(12): 2207-2216. (SCI)

[9]     Xu Fei, Xie Xian-song*, Chen Ju, Jin Weiliang. Behavior of PVA fiber concrete under freezing and thawing cycles[J]. Indian Journal of Engineering & Materials Sciences. 2015, 22(9), 693-700. (SCI)

[10]     Xu F, Chen J*, Jin W. Experimental investigation of SCF distribution for thin-walled concrete-filled CHS joints under axial tension loading[J]. Thin-walled Structures, 2015, 93, 149-157. (SCI)(3)

[11]     Chen J*, Ni Y Y, Jin W. Column tests of dodecagonal section double skin concrete-filled steel tubes[J]. Thin-Walled Structures, 2015, 88: 28-40. (SCI)(2)

[12]     Duan A, Zhao Z, Chen J, et al. Nonlinear time history analysis of a pre-stressed concrete containment vessel model under Japan's March 11 earthquake[J]. COMPUTERS AND CONCRETE, 2014, 13(1): 1-16. (SCI) (1)

[13]     Xu F, Chen J*, Jin W. Experimental Investigation and Design of Concrete-Filled Steel Tubular CHS Connections[J]. Journal of Structural Engineering, 2014. (SCI)

[14]     Xu F, Chen J*, Jin W. Experimental investigation of thin-walled concrete-filled steel tube columns with reinforced lattice angle[J]. Thin-Walled Structures, 2014, 84: 59-67. (SCI) (1)

[15]     Jiang A, Chen J*, Jin W. Experimental Study of Innovative Steel-Concrete Composite Beams Under Hogging Moment[J]. Advances in Structural Engineering, 2013, 16(5): 877-886. (SCI)

[16]     Jiang A, Chen J*, Jin W. Experimental investigation and design of thin-walled concrete-filled steel tubes subject to bending[J]. Thin-Walled Structures, 2013, 63: 44-50. (SCI) (3)

[17]     Yan Y D, Jin W L, Chen J*. Experiments of chloride ingression in flexural reinforced concrete beams[J]. Advances in Structural Engineering, 2012, 15(2): 277-286. (SCI) (3)

[18]     Duan A, Chen J*, Jin W. Numerical simulation of the freezing process of concrete[J]. Journal of Materials in Civil Engineering, 2012, 25(9): 1317-1325. (SCI) (5)

[19]     Xue W, Chen J*, Jin W, et al. Effect of Concrete Mixture Proportions on the Chloride Resistance[J]. Advanced Science Letters, 2011, 4(8-10): 2854-2859. (SCI)

[20]     Huang S, Chen J*, Jin W. Numerical investigation and design of thin-walled complex section steel columns[J]. Journal of Zhejiang University SCIENCE A, 2011, 12(2): 131-138. (SCI)

[21]     Chen J, He Y, Jin W L. Stub column tests of thin-walled complex section with intermediate stiffeners[J]. Thin-Walled Structures, 2010, 48(6): 423-429. (SCI)

[22]     Chen J*, Jin W. Experimental investigation of thin-walled complex section concrete-filled steel stub columns[J]. Thin-Walled Structures, 2010, 48(9): 718-724. (SCI)

[23]     Chen J, Chen J*, Jin W. Experiment investigation of stress concentration factor of concrete-filled tubular T joints[J]. Journal of Constructional Steel Research, 2010, 66(12): 1510-1515. (SCI)

[24]     Chen J, Chen J*, Jin W L. Design of thin-walled centrifugal concrete-filled steel tubes under torsion[J]. Thin-Walled Structures, 2009, 47(3): 271-276. (SCI)

[25]     Chen J*, Jin W. Corner strength enhancement of high strength cold-formed steel at normal room and elevated temperatures[J]. Journal of Zhejiang University SCIENCE A, 2008, 9(9): 1251-1257. (SCI)

[26]     Chen J*, Jin W. Behaviour of cold-formed stainless steel beams at elevated temperatures[J]. Journal of Zhejiang University SCIENCE A, 2008, 9(11): 1507-1513. (SCI)

[27]     Chen J*, Jin W L, Fu J. Experimental investigation of thin-walled centrifugal concrete-filled steel tubes under torsion[J]. Thin-Walled Structures, 2008, 46(10): 1087-1093. (SCI)

[28]     Chen J, Young B. Design of high strength steel columns at elevated temperatures[J]. Journal of Constructional Steel Research, 2008, 64(6): 689-703. (SCI)

[29]     Young B, Chen J. Column tests of cold-formed steel non-symmetric lipped angle sections[J]. Journal of Constructional Steel Research, 2008, 64(7): 808-815. (SCI)

[30]     Young B, Chen J. Design of cold-formed steel built-up closed sections with intermediate stiffeners[J]. Journal of structural engineering, 2008, 134(5): 727-737. (SCI)

[31]     Chen J, Young B. Cold-formed steel lipped channel columns at elevated temperatures[J]. Engineering Structures, 2007, 29(10): 2445-2456. (SCI)

[32]     Chen J, Young B. Experimental investigation of cold-formed steel material at elevated temperatures[J]. Thin-Walled Structures, 2007, 45(1): 96-110. (SCI)

[33]     Chen J, Young B. Stress–strain curves for stainless steel at elevated temperatures[J]. Engineering Structures, 2006, 28(2): 229-239. (SCI)

[34]     Chen J, Young B. Corner properties of cold-formed steel sections at elevated temperatures[J]. Thin-Walled Structures, 2006, 44(2): 216-223. (SCI)

[35]     Chen J, Young B, Uy B. Behavior of high strength structural steel at elevated temperatures[J]. Journal of Structural Engineering, 2006, 132(12): 1948-1954. (SCI)

 

奖励和荣誉：

 

国家科技进步二等奖, “沿海混凝土结构耐久性理论及应用技术”, 2008, 排名7/10

浙江省科技进步一等奖, “薄壁钢管混凝土和组合梁结构体系的关键技术与工程应用”, 2014, 排名2/13

浙江省科技进步二等奖,“沿海混凝土工程安全耐久性的关键技术与工程应用”,2006,排名9/9

教育部科学技术进步二等奖，“海洋结构物可靠性理论及工程应用”, 2009, 10/12

浙江省“151”人才第三层次

浙江大学求是青年学者

 

社会兼职：

[1]国际期刊International journal of structural engineering 助理编辑

[2]中国钢结构协会-锅炉钢结构分会专家委员会委员

[3]2008年，第一届国际混凝土结构耐久性组委会成员

[4]2010年，第13届管结构国际学术会议组委会成员

[5]]中国工程建设标准化协会《整体预应力板柱结构技术规程》编委

教学工作：

[1]. 钢筋混凝土结构，本科生课程。

[2]. 高层建筑结构与抗震，本科生课程。