陈誉,男,1978年4月出生,湖北公安人,同济大学结构工程专业工学博士,教授,博士生导师,国家万人计划科技创新领军人才,科技部中青年科技创新领军人才,国务院政府特殊津贴专家,福建省“百人计划”创新人才,闽江学者特聘教授,福建省引进高层次创业创新人才,福建省级高层次人才(A类),湖北省有突出贡献中青年专家,湖北省杰出青年基金获得者,四川省天府学者特聘专家。
科技部评审专家,中国钢结构协会专家委员,结构抗火专业委员会委员,中国工程建设标准化协会预应力工程专业委员会委员,中国钢结构协会钢-混凝土组合结构分会理事,中国钢结构协会核电钢结构分会理事,国家自然科学基金、福建省自然科学基金、浙江省自然科学基金同行评议专家。共培养90余名研究生,其中20名获得研究生国家奖学金,1名获得省级优秀学位论文。
联系方式:yuchen@fzu.edu.cn,kinkingingin@163.com
一、研究方向
(1)钢结构理论及设计
(2)钢-混凝土组合结构
(3)复合材料结构
(4)钢结构桥梁理论及设计
(5)结构数值模拟技术研究
(6)结构抗震设计及抗震加固
(7)高层建筑结构设计理论
二、主持的代表性科研项目
(1)沿海湿热耦合作用下型钢混凝土组合柱劣化机理研究:国家自然科学基金面上项目(项目编号: 52078138)。主持(执行中)
(2)拉挤型GFRP管-混凝土-型钢组合柱受力性能与设计方法研究:国家自然科学基金面上项目(项目编号: 51778066)。主持(已结题)
(3)不锈钢管混凝土桁架受力性能与设计方法研究:国家自然科学基金面上项目(项目编号:51478047)。主持(已结题)
(4)弯曲弦杆的钢管混凝土相贯节点静动力性能与设计方法研究:国家自然科学基金面上项目(项目编号:51278209)。主持(已结题)
(5)钢管混凝土桁架节点力学性能与设计方法研究:国家自然科学青年基金项目(项目编号:51008133)。主持(已结题)
(6)考虑冗余度的组合框架体系面向地震和连续性倒塌综合设计理论及其产业化:福建省引导性项目(项目编号:2021Y0003)。主持(执行中)
(7)大跨度空间方圆钢管节点极限承载力与抗震性能研究:湖北省杰出青年基金项目(项目编号: 2017CFA070)。主持(已结题)
(8)大偏心圆钢管桁架节点受力性能研究:福建省自然科学基金面上项目(项目编号: 2012J01219)。主持(已结题)
(9)方钢管搭接节点力学性能与设计方法研究:福建省自然科学基金面上项目(项目编号:2010J01299)。主持(已结题)
(10)海洋石油平台方钢管混凝土节点力学性能与设计方法研究:大连理工大学海岸和近海工程国家重点实验室基金资助项目(项目编号:LP1005)。主持(已结题)
(11)基于结构整体行为的钢管混凝土桁架节点非刚性性能:福建省青年人才项目(项目编号:2007F3065)。主持(已结题)
(12)新型近海海洋平台钢管混凝土节点受力性能及设计理论:大连理工大学海岸和近海工程国家重点实验室基金资助项目(项目编号:LP0705)。主持(已结题)
三、荣誉称号及科研获奖
(1)2021年第六批国家万人计划科技创新领军人才
(2)2020年科技部中青年科技创新领军人才
(3)2018年国务院政府特殊津贴专家
(4)2022年度“卢嘉锡优秀导师奖”
(5)2022年第三批全国党建工作样板支部:福州大学土木工程学院青年马克思主义者培养班党支部(副书记)
(6)2020年度福建省科技进步二等奖:极端作用下大型复杂钢管结构体系性能评估和提升技术及工程应用,排名第一
(7)2020年福建省引进高层次人才(A类)
(8)2020年福建省第七批引才“百人计划”创新人才
(9)2019年度福建省科技进步一等奖:大跨度空间新型管桁架及复杂节点设计理论与应用研究,排名第一
(10)2018年度福建省科技进步一等奖:多肢组合结构设计理论及产业化关键技术,排名第四
(11)2017年“闽江学者奖励计划”特聘教授
(12)2017年度湖北省杰出青年基金项目获得者
(13)2016年度湖北省有突出贡献中青年专家
(14)2014年度福建省高校“新世纪优秀人才支持计划”
(15)2014年度湖北省科技进步二等奖:高层建筑非常规钢-混凝土组合结构关键技术与应用,排名第七
(16)2013年福建省高校“杰出青年科研人才培育计划”
四、著作
(1)陈誉,何康(专著).圆钢管节点静力性能与应力集中系数研究.北京:科学出版社,2020
(2)陈誉,何康(专著).异型钢管节点受力性能与设计方法.北京:科学出版社,2020
(3)陈誉(专著).典型油气管道跨越结构和节点力学性能与设计.郑州:郑州大学出版社,2012
五、代表性论文
(1) Chen Y, Feng R, Wang J.Behaviour of bird-beak square hollow section X-joints under in-plane bending[J].Thin-Walled Structures,2015, 86(1):94-107.(SCI, EI)(IF=5.881)(1区)(ESI高被引论文)
(2) Chen Y, Chen XX, Wang CY. Experimental and finite element analysis research on cold-formed steel lipped channel beams under web crippling[J].Thin-Walled Structures, 2015, 87(2):41-52. (SCI, EI) (IF=5.881)(1区)
(3) Chen Y, Wang CY. Web crippling behavior of pultruded GFRP rectangular hollow sections[J].Composites Part B: Engineering,2015, 77(8):112-121.(SCI, EI) (IF=11.322)(1区)
(4) Chen Y, Wang CY. Test on pultruded GFRP I-section under web crippling[J].Composites Part B: Engineering,2015, 77(8):27-37.(SCI, EI) (IF=11.322)(1区)
(5) Chen Y, Feng R, Gao SW. Experimental study of concrete-filled multiplanar circular hollow section tubular trusses[J].Thin-Walled Structures,2015, 94(9):199-213.(SCI, EI) (IF=5.881)(1区)
(6) Chen Y, Feng R, Wang CY.Tests of steel and composite CHS X-joints with curved chord under axial compression[J].Engineering Structures,2015, 99(9):423-438.(SCI, EI) (IF=5.582)(2区)
(7) Chen Y, Feng R, Wang CY. Tests of bare and concrete-filled CHS T-joints with concave chord under axial compression[J].Construction and Building Materials, 2015, 93(9):144-156. (SCI, EI) (IF=7.693)(1区)
(8) Chen Y, Chen XX, Wang CY. Web crippling of galvanized steel tube strengthened by CFRP sheets[J].Composites Part B: Engineering,2016, 84(1):200-210. (SCI, EI)(IF=11.322)(1区)
(9) Chen Y, Feng R, Wei L. Design of CHS brace-to-H-shaped chord T-joints under axial compression[J].Thin-Walled Structures, 2016, 98(1):274-284. (SCI, EI) (IF=5.881)(1区)
(10) Chen Y, Feng R, Xiong LL. Experimental and numerical investigations on steel–concrete–PVC SHS joints under axial compression[J].Construction and Building Materials, 2016, 102(1):654-670. (SCI, EI) (IF=7.693)(1区)
(11) Chen Y, Chen XX, Wang CY. Tests and behavior of hot-rolled channel steel sections subjected to web crippling[J].Journal of Constructional Steel Research, 2016, 117(2): 101-114. (SCI, EI) (IF=4.349)(2区)
(12) Chen Y, Chen DF. Ultimate capacities formulae of collar and doubler plates reinforced SHS X-joints under in-plane bending[J].Thin-Walled Structures, 2016, 99(2):21-34. (SCI, EI). (IF=5.881)(1区)
(13) Chen Y, Yang J, Hu K. Parametric study and formulae of SCFs for positive large eccentricity CHS N-joints[J].Journal of Constructional Steel Research, 2016, 120(4):117-131. (SCI, EI). (IF=4.349)(2区)
(14) Chen Y, Feng R, Xiong LL. Experimental and numerical investigations on double-skin CHS tubular X-joints under axial compression[J].Thin-Walled Structures, 2016, 106(9):268-283. (SCI, EI). (IF=5.881)(1区)
(15) Chen Y, Feng R, Wang LP. Flexural behaviour of concrete-filled stainless steel SHS and RHS tubes[J].Engineering Structures,2017, 134(3):159-171.(SCI, EI) (IF=5.582)(2区)
(16) Chen Y, Ran F, Shao YB, Zhang XT. Bond-slip behaviour of concrete-filled stainless steel circular hollow section tubes[J].Journal of Constructional Steel Research, 2017, 130(3):248-263. (SCI, EI). (IF=4.349)(2区)
(17) Chen Y, Wan J, Hu K, Yang J, Chen XX. Stress concentration factors of circular chord and square braces K-joints under axial loading[J].Thin-Walled Structures, 2017(4), 113:287-298. (SCI, EI). (IF=5.881)(1区)
(18) Chen Y, Feng R, Xu J. Flexural behaviour of CFRP strengthened concrete-filled aluminium alloy CHS tubes[J].Construction and Building Materials,2017, 142(7):295-319. (SCI, EI). (IF=7.693)(1区)
(19) Chen Y, Wan J, Wang K.Residual axialbearing capacityof square steel tubes after lateral impact[J].Journal of Constructional Steel Research,2017, 137(10):325-341. (SCI, EI) (IF=4.349)(2区)
(20) Chen Y, Feng R, Fu LQ. Investigation of grouted stainless steel SHS tubular X- and T-joints subjected to axial compression[J].Engineering Structures, 2017, 150(11):318-333.(SCI, EI) (IF=5.582)(2区)
(21) Chen Y, Kai Wang, Feng R, Kang He, Wang LP. Flexural behaviour of concrete-filled stainless steel CHS subjected to static loading[J].Journal of Constructional Steel Research, 2017, 139(12):30-43. (SCI, EI) (IF=4.349)(2区)
(22) Chen Y, Feng R, He K, Chen XX, Huang JF. Flexural behaviour of concrete-filled stainless steel SHS and RHS tubes strengthened by CFRP[J].Thin-Walled Structures, 2018, 122(1):208-229. (SCI, EI) . (IF=5.881)(1区)
(23) Chen Y, Wang K, He Kang, Wei JG, Wan J. Compressive Behavior of CFRP-confined post heated square CFST stub columns[J].Thin-Walled Structures, 2018, 127(6):434-445. (SCI, EI). (IF=5.881)(1区)
(24) Chen Y, He K, Han SH, Wei JG.Experimental investigation of square concrete filled stainless steel tubular stub columns after exposure to elevated temperatures[J].Thin-Walled Structures, 2018, 130(9):12-32. (SCI, EI). (IF=5.881)(1区)
(25) Chen Y, Wan J, He K. Experimental investigation on axial compressive strength of lateral impact damaged short steel columns repaired with CFRP sheets[J].Thin-Walled Structures, 2018, 131(10):531-546. (SCI, EI) (Corresponding author) (IF=5.881)(1区)
(26) Chen Y, Feng R, Gong WZ. Flexural behavior of concrete-filled aluminum alloy circular hollow
section tubes[J].Construction and Building Materials,2018, 165(3):173-186. (SCI, EI). (IF=7.693)(1区)
(27) Chen Y, He K, Han SH, Yuan Y. Experimental study on three-layer tempered glass panel on quadrilateral simple bearing under local uniformly distributed load[J].Thin-Walled Structures, 2019, 139(6):294-309. (SCI, EI) (IF=5.881)(1区)
(28) He K, Chen Y*. Experimental evaluation of built-in channel steel concrete-filled GFRP tubular stub columns under axial compression[J].Composite Structures, 2019, 219(7):51-68. (SCI, EI) (IF=6.603)(1区)
(29) He K, Chen Y*, Han SH. Experimental investigation of square stainless steel tubular stub columns after elevated temperatures[J].Journal of Constructional Steel Research, 2019, 159(8):397-414. (SCI, EI) (IF=4.349)(2区)
(30) Zhu QX, Chen Y*. Static behavior of X-joints with SHS chord and CHS braces[J].Journal of Constructional Steel Research, 2019, 162(11):1-17. (SCI, EI) (IF=4.349)(2区)
(31)He K, Chen Y*. Experimental investigation of fire-exposed steel tubular stub columns wrapped with CFRP sheets[J].Composite Structures,2020, 253:112807. (SCI, EI) (IF=6.603)(1区)
(32) Qiao HY, Chen Y*, Wang JP, Chen CW. Experimental study on beam-to-column connections with reduced beam section against progressive collapse[J].Journal of Constructional Steel Research, 2020, 175:106358.(SCI, EI) (IF=4.349)(2区)
(33) He K, Chen Y*, Yan Y.Axial mechanical properties of concrete-filled GFRP tubular hollow composite columns[J].Composite Structures,2020, 243(1):1-15. (SCI, EI) (IF=6.603)(1区)
(34) Guo Z, Chen Y*, Wang Y, Jiang MY. Experimental study on square concrete-filled double skin steel tubular short columns[J].Thin-Walled Structures, 2020, 156:107017. (SCI, EI) (IF=5.881)(1区)
(35) Guo Z, Chen Y*. Experimental study on compressive behavior of concrete-filled GFRP tubular stub columns after being subjected to acid corrosion[J].Composite Structures, 2020, 204:110048 (SCI, EI) (IF=6.603)(1区)
(36) Yang X, Tang C, Chen Y*, Qiao TY. Compressive behavior of steel-reinforced concrete-filled square steel tubular stub columns after exposure to elevated temperature[J].Engineering Structures, 2020, 204:110048. (SCI, EI) (IF=4.471)(2区)
(37) Guo Z, Chen Y*. Investigation on flexural behavior of double-layer toughened sandwich glass with trilateral simple support[J].Composite Structures, 2020, 252:112783. (SCI, EI) (IF=6.603)(1区)
(38) He K, Chen Y*. Experimental study on mechanical properties of sandwich tempered glass unidirectional composite laminate[J].Composite Structures, 2020, 255:112980. (SCI, EI) (IF=6.603)(1区)
(39) Zhu Y, Chen Y*, Feng R. Flexural behavior ofconcrete-filled SHS and RHS aluminum alloy tubes strengthened with CFRP[J].Composite Structures2020, 238(1):1-23. (SCI, EI) (IF=6.603)(1区)
(40) Zhang XY, Chen Y*, Ye MY. Research on square concrete filled GFRP tube columns strengthened with CFRP sheet[J].Composite Structures, 2021, 275:114407. (SCI, EI) (IF=6.603)(1区)
(41) Chen YY, Chen Y*. Residual shearing strength of fillet weld connections after exposure to elevated temperature[J].Journal of Constructional Steel Research, 2022, 188:107049. (SCI, EI) (Corresponding author)(2区)
(42) Qiao HY, Guo ZZ, Chen Y*. Experimental investigation of a substructure in a frame with castellated steel beams in case of a column loss[J].Engineering Structures, 2022, 255:113926. (SCI, EI) (IF=5.582)(2区)
(43) Qiao HY, Xie XY, Chen Y*. Improvement of progressive collapse resistance for a steel frame system with beam–web opening[J].Engineering Structures, 2022, 256:113995. (SCI, EI) (IF=5.582)(2区)
(44) Qiao HY, Xia J, Chen Y*, Chen CW, Zheng JH. A novel principle for improving collapse resistance of steel frame structures[J].Journal of Constructional Steel Research, 2022, 196:107408. (SCI, EI) (IF=4.349)(2区)
(45)陈誉,赵宪忠,陈以一等.平面K型圆钢管搭接节点有限元参数分析与极限承载力计算公式[J].建筑结构学报.2006,27(4):30-36.(EI)
(46)赵宪忠,陈誉,陈以一等.平面K型圆钢管搭接节点静力性能的试验研究[J].建筑结构学报.2006,27(4):23-29.(EI)
(47)陈誉,彭兴黔.空间KK型双弦杆圆钢管搭接节点有限元参数分析与极限承载力计算公式[J].建筑结构学报.2007,28(3):37-45.(EI )
(48)陈誉,王召民,银永明等.玻璃幕墙用不锈钢驳接爪力学性能试验研究[J].建筑结构学报.2010,31:195-200.(EI)
(49)陈誉,赵宪忠.平面KT型圆钢管搭接节点有限元参数分析与承载力计算[J].建筑结构学报.2011,32(4):134-141.(EI)
(50)陈誉,唐菊梅.平面K型主圆支方钢管节点力学性能数值分析[J],工程力学,2011.28(8):219-226. (EI)
(51)陈誉,刘飞飞.正对称Pratt桁架直腹杆受压大偏心N型圆钢管节点静力性能实验研究[J].工程力学.2011,28(11):170-177.(EI)
(52)陈誉,唐菊梅.平面K形圆主管方支管节点承载力试验研究与有限元分析[J].建筑结构学报.2011,32(10):56-64.(EI)
(53)陈誉,张钻湖.腹杆内灌混凝土十字型圆钢管节点平面内抗弯性能试验研究[J].土木工程学报.2012,45(7):97-104.(EI)
(54)陈誉,张钻湖.主管中灌混凝土平面X形圆钢管混凝土节点平面内抗弯性能试验研究[J].土木工程学报.2012,45(8):1-7.(EI)
(55)陈誉,刘飞飞.反对称Pratt桁架中斜腹杆受压大偏心N形圆钢管节点静力性能试验研究[J].建筑结构学报.2012,33(3):30-38.(EI)
(56)陈誉,张钻湖.平面X型圆钢管混凝土节点平面外受弯性能试验研究[J].建筑结构学报.2012,33(3):39-47.(EI)
(57)陈誉,张钻湖.主管灌混凝土平面X形圆钢管节点受压承载力试验研究[J].建筑结构学报.2012,33(1):72-80.(EI)
(58)陈誉,张钻湖.支管灌混凝土平面X形圆钢管节点轴压性能试验研究[J].建筑结构学报.2012,33(1):81-88.(EI)
(59)陈誉,魏琳.圆支管-H型钢主管T型节点抗压性能试验研究[J].土木工程学报.2013,46(12):25-33.(EI)
(60)陈誉,李凤霞,王江.热成型不锈钢圆管混凝土轴压短柱受力性能试验研究[J].建筑结构学报.2013,34(2):106-112.(EI)
(61)陈誉,黄勇.焊接不锈钢方管混凝土短柱轴压性能试验研究[J].建筑结构学报. 2013,34(2):113-118.(EI)
(62)陈誉,黄勇.X型矩形管斜插板节点轴压性能试验研究[J].土木工程学报.2014,47(9):76-84.(EI)
(63)陈誉,王潮阳,郭晓颖,尹航,徐畅,郭秀泉.碳素方钢管腹板屈曲性能试验研究[J].土木工程学报. 2015,48(2):34-43.(EI)
(64)陈誉,黄勇.X形圆管斜插板节点轴压性能试验研究[J].建筑结构学报. 2015,36(3):90-97.(EI)
(65)沈小盛,张晓勇,方焰,何康,陈誉*.冻融循环后圆钢管混凝土短柱轴压性能试验研究[J].建筑结构学报. 2019,40(5):105-114.(EI)(通讯作者)
(66)郭展,陈誉*.不同冲击角度作用后的圆钢管柱滞回性能试验研究[J].土木工程学报. 2020,53(11).(EI)(通讯作者)
(67)郭展,陈誉*,何康.基底摇摆隔震桥墩振动台试验与数值模拟研究[J].建筑结构学报. 2020,41(6):38-48.(EI)(通讯作者)
(68)乔惠云,罗才松,马永超,陈誉*.钢框架结构在坠落块体撞击作用下的动力效应分析[J].振动与冲击, 2021, 40(05):8-15.(通讯作者)
(69)陈誉,何康,陈灿文.局部荷载作用下钢化夹胶玻璃板极限承载力研究[J].土木工程学报, 2021, 54(4):68-78.
(70)郭展,陈誉*,李志慧.冲击荷载作用后圆钢管柱抗震性能与恢复力模型研究[J].建筑结构学报. 2022,43(8):112-123.(EI)(通讯作者)
(71)熊传祥,张满,郭展,陈誉*.h型支挡结构模型的实验研究[J].土木工程学报. 2022, 55(7):108-120.(EI)(通讯作者)
六.发明专利
(1)一种混凝土预制箱梁快速起吊吊具(201710520176.3)
陈誉何康
(2)一种正交异性板U肋内部除锈防腐装置(201710808632.4)
陈誉王力丹张文学李云开贾建兴张红
(3)混凝土模板侧压力的折减系数测量装置及测量方法(201710751957.3)
陈誉李云开张文学王力丹贾建兴张红
(4)树状柱的偏心支撑结构(201810541702.9)
陈誉顾宏伟胡鹏兵何康张晓勇
(5)一种再生混凝土组合柱及其制备方法(201810459393.0)
袁彬陈誉何康
(6)一种作用在柱上的水平刚接加载装置(201910536419.1)
陈誉杨航冯刚
(7)碳纤维海砂高性能混凝土材料及其制备方法(201910042974.9)
陈誉皮涛胡鹏兵张晓勇沈小盛唐超庄成龙
(8)一种电缆支架(201910435671.3)
陈誉林神通王磊胡鹏兵冯刚
(9)一种检测水平冲击荷载的装置(201910435526.5)
陈誉叶梦雅何康冯刚
(10)一种组合路面板结构(202010781944.2)
陈誉葛蓓蓓冯刚赵阳夏禄璟
(11)一种钢板剪力墙(202010756017.5)
陈誉李志慧冯刚孙琳皓
(12)一种钢管混凝土柱(202010910164.3)
陈誉李志慧冯刚孙琳皓
(13)一种新型减震耗能器装置(202010910239.8)
陈誉许智军冯刚赵阳夏禄璟陈灿文
(14)一种用于桥梁顶推的临时墩(202010911868.2)
陈誉孔文渊王金鹏薛筱蕾叶梦雅冯刚陈灿文
(15)一种带侧向支撑的开孔软钢阻尼器(2021010565954.7)
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七、参编标准
[1]中华人民共和国国家标准《钢结构设计标准》(GB 50017-2017)
[2]工程建设协会标准《钢管结构技术规程》(CECS 280:2010)