个人简介:
唐红元,工学博士,研究生导师,三级教授,四川省学术和技术带头人后备人选,四川省海外高层次留学人才。美国匹兹堡大学访问学者,2016年在中央社会主义学院学习,2019年在四川省住房和城乡建设厅挂职景观园林处副处长1年。研究兴趣主要在装配式RCS框架结构体系、CFRP提升钢结构和钢管混凝土组合结构承载力理论研究。负责和参与国家自然科学基金、教育部、四川省教育厅等多项省部级纵向和横向课题的研究;担任国内外20余种权威期刊审稿人;以第1作者和通讯作者在国内《建筑结构学报》,以及国外Composite Structures等期刊上发表学术论文100余篇,其中SCI和EI收录50余篇;出版教材和专著多部;第一完成人获得2023年、2018年四川省科技进步奖二等奖、三等奖各1项。多次受邀参加国内和国际土木工程学术会议,担任分会场主席并作学术交流报告。
研究方向: 钢结构和钢管混凝土组合结构,韧性结构设计及多灾害耦合效应。招收研究生:土木工程学硕和土木水利专硕。
联系邮箱:tanghyseu@163.com
一、教学工作:
本科生《钢结构基本原理》,研究生《工程结构检测与加固》和《高等钢结构理论》。
二、荣誉奖励:
2023年四川省科技进步二等奖(排名1)(1/8)。
2018年四川省科技进步三等奖(排名1)(1/6)。
三、社会兼任:
教育部学科评估和学位论文评审专家,四川省、浙江省、广西省、重庆市科技项目和科技进步奖评审专家。四川省建筑防火科技研究会理事,四川省结构专委会委员。
四、论文代表作:
1. Tang H Y *, Tan H F, Zhang J F, Yang Y, Yao Y. Study on seismic behavior of prefabricated shear wall with pressed cone sleeves (PCSs) [J]. Soil Dynamics and Earthquake Engineering, 2024,184:108824.
2. Tang H Y, Liu J J, Tan B, Qin J Y. Experimental and numerical study on behavior of UHPC-filled circular stainless steel tube stub columns under eccentric compression [J]. Structures, 2024, 69:107402.
3. Gao Z W, Yang X B, Zhang J F, Tang H Y*, Du Y, Zhao S Y. Modal Modification Based Analysis of Seismic Performance of the Jiufeng Temple Ancient Masonry Pagoda[J]. Soil Dynamics and Earthquake Engineering, 2025,188:109087.
4. Tang H Y, Zou X, Liu Y. Eccentric compression performance of UHPC-filled square stainless steel tube stub columns [J]. Journal of Constructional Steel Research, 2024,215:108515.
5. Tang H Y *, Tan H F, Liu J J, Tan B, Yao Y. Eccentric compression behaviour of normal and ultra-high performance concrete-filled stainless steel tube stub columns [J]. Structures, 2024, 63:106376.
6. Tang H Y, Wang H X, Liu Y, Bian Y, Gao Z W. Axial compressive property of square and rectangular UHPC-filled duplex stainless steel tube stub columns [J]. Composite Structures,2023,323:117492.
7. Tang H Y, Qin J Y, Liu Y, Chen J L. Axial compression behaviour of circular and square UHPC-filled stainless steel tube columns [J]. Journal of Constructional Steel Research, 2023, 211:108111.
8. Tang H Y, Qin J Y, Yang H, Lang L, Gao Z W, Tang X B. Analytical and experimental investigation on axial compression capacity of carbon fiber-reinforced plastic-confined concrete-filled double-skin steel tube stub columns [J]. Advances in Structural Engineering, 2023, 26 (13):2465-2488.
9. Tang H Y, Hou L J, Yuan Z J, Jia Y G, Wang Y Z. Eccentric compressive behavior of square concrete-filled stainless steel tube (CFSST) stub columns [J]. Structures, 2023(55):1920-1935.
10. Tang H Y, Wang H X, Liu Y,* Sun X J, Huang X G. Behaviour of CFRP confined square concrete-filled stainless-steel tubular columns under uni-axial compression [J]. Thin-Walled Structures, 2023, 183:110440.
11. Tang H Y *, Liu R Z, Hou L J, Hong D. Research on compressive behavior of CFRP-confined CFDST stub columns with square stainless steel outer tube [J]. Structures, 2023, 48:450-464.
12. Tang H Y *, Zou X, Yue Z Y, Liu Y. Study on compressive behavior of CFRP-confined concrete-filled double-skin stainless steel tube stub columns [J]. Ocean Engineering, 2023,271:113735.
13. Tang H Y *, Tan H F, Ge S S, Qin J Y. Comprehensive experimental database and analysis of circular CFDST stub columns: A review [J]. Frontiers of Structural and Civil Engineering, 2023,17(12):1830-1848.
14. Lang L, Qin Y Z, Tang H Y, et al. Effect of reflected stress wave on dynamic crack propagation and arrest behavior of sandstone specimens under impact loading [J]. Theoretical and Applied Fracture Mechanics, 2023,123:10372.
15. Xu Y, Fan Y J, Zhang Y D, Shu B, Tang H Y. Experimental Study on the Mechanical Properties of Horizontally Bolted Joints of Prefabricated Shear Walls [J]. International Journal of Civil Engineering, 2024, 22(6):1011-1028.
16. Lu Y J, Lv Q F, Sun T F, Liu Y∗, Tang H Y. Experimental and numerical studies on hysteretic behavior of a novel bending-friction coupled damper [J]. Thin-Walled Structures, 2023, 183:110385.
17. Tang H Y *, Wang H X, Liu R Z, Zou X, Jia Y G. Axial compression behavior of CFRP-confined square concrete-filled double skin tube stub columns with stainless steel outer tube [J]. Ocean Engineering, 2022,266:112871.
18. Tang H Y*, Chen J L, Yue Z Y, et al. Theoretical analysis on the ultimate bearing capacity of CFRP-confined CFSST stub columns [J]. Archives of Civil and Mechanical Engineering, 2021,22(1):26.
19. Tang H Y*, Liu R Z, Zhao X, et al. Axial Compression Behavior of CFRP-Confined Rectangular Concrete- Filled Stainless Steel Tube Stub Column [J]. Frontiers of Structural and Civil Engineering, 2021, 15(5): 1144-1159.
20. Tang H Y*, Chen J L, Fan L Y, et al. Experimental investigation of FRP-confined concrete-filled stainless steel tube stub columns under axial compression [J]. Thin-Walled Structures, 2020, 146:106483.
21. Tang H Y*, Deng X Z, Jia YG, et al. Study on the progressive collapse behavior of fully bolted RCS beam-to-column connections [J]. Engineering Structures, 2019,199:109618.
22. Tang H Y, Deng X Z, Lin Z B*, et al. Analytical and experimental investigation on bond behavior of CFRP-to-stainless steel interface [J]. Composite Structures, 2019, 212:94-105.
23. Xu Y, Tang H Y*, Chen JL, et al. Numerical analysis of CFRP-confined concrete-filled stainless steel tubular stub columns under axial compression [J]. Journal of Building Engineering, 2021, 37: 102130.
24. Pan Y*, Guo R, Li H Y, Tang H Y*, et al. Analysis-oriented stress–strain model for FRP-confined concrete with preload [J]. Composite Structures, 2017, 166(15):57-67.
25. Pan Y*, Guo R, Li H Y, Tang H Y*, et al. Study on stress-strain relation of concrete confined by CFRP under preload [J]. Engineering Structures, 2017, 143:52-63.
26. Zhou X J, Mou T M, Tang H Y*, et al. Experimental study on ultra-high strength concrete filled steel tube short columns under axial load [J]. Advances in materials and engineering, 2017.
27. Tang H Y*, Deng XZ and Zhou XJ. Experimental study on behavior of steel channel strengthened with CFRP [J]. Curved and Layered Struct., 2017, 4:288-298.
28. Tang H Y*, Wang R J, Peng C M. Simulation of Uncertainties in Shrinkage and Creep Effects in Concrete [J]. Emerging Materials Research, 2017, 6(1):210-213.
29. Tang H Y*, Yue Z Y, Liu R Z, et al. Axial capacity of CFRP-strengthened steel square short columns with hollow sections [C]. The 7th Asia-Pacific Conference on FRP in Structures, APFIS 2019, December 10-13.
30. 唐红元; 胡晓维; 刘烨. 方形不锈钢管超高性能混凝土(UHPC)短柱轴压性能研究[J/OL].工程力学. https://kns.cnki.net/kcms/detail/11.2595.O3.20230410.1120.016.html.
31. 唐红元; 曾跃佳; 刘烨. 圆不锈钢管超高性能混凝土短柱轴压性能研究[J/OL].工程力学. https://kns.cnki.net/kcms/detail/11.2595.O3.20230414.0959.002.html.
32. 唐红元,王辉祥,刘烨.矩形双相不锈钢管超高性能混凝土短柱轴压性能试验研究[J/OL].工程科学与技术. https://link.cnki.net/urlid/51.1773.TB.20240521.1040.003.
33. 唐红元, 马梦淋, 杨媛*, 等. 正交胶合木销槽承压强度试验研究. 建筑结构学报,2022,43(5):175-184.
34. 唐红元, 黄靖翔,廖静,等. 梁贯通型RCS组合结构梁柱节点抗连续倒塌性能研究[J]. 土木工程学报, 2020, 53(S2):1-6.
35. 唐红元, 黄靖翔,廖静,等. 梁贯通型RCS组合结构梁柱节点抗连续倒塌性能研究[J]. 土木工程学报, 2020, 53(S2):1-6.唐红元, 葛思思, 付祥, 等. 外贴CFRP布加固不锈钢和普通钢方管短柱轴向承载力研究[J]. 建筑结构学报,2020, 41(S1):98-108.
36. 唐红元, 邓雪智, 熊进刚, 等. 柱贯通梁柱节点非对称钢筋混凝土柱-钢梁框架结构抗连续倒塌性能研究[J]. 建筑结构学报, 2021, 42(4):92-102.
37. 唐红元, 周祥, 周孝军, 等. CFRP-不锈钢界面粘结性能试验研究[J]. 建筑结构学报,2018, 39(12):185-193.
38. 唐红元, 王灿军, 潘毅,等. CFRP加固冷弯薄壁槽钢短柱偏心受压承载力试验研究[J]. 建筑结构学报, 2017, 38(11):159-166.
39. 唐红元, 李政周, 范璐瑶, 等. 矩形不锈钢管混凝土短柱轴压性能试验研究[J]. 西南交通大学学报, 2022,57(4):855-864.
40. 唐红元, 范璐瑶, 赵鑫, 等. 圆不锈钢管混凝土短柱轴压承载力模型研究[J]. 工程科学与技术, 2020, 52(3):10-20.
41. 唐红元*, 廖静, 刘瑞忠, 等. 方中空不锈钢管混凝土短柱轴压性能研究[J].西南交通大学学报, 2023,58(2): 421-429.
42. 廖静, 唐红元*, 岳兆阳, 等. CFRP约束圆中空夹层钢管混凝土短柱轴心受压试验研究[J]. 土木与环境工程学报,2023,45(04):124-132.
43. 唐红元,范璐瑶,赵鑫,等. 圆不锈钢管混凝土短柱轴压承载力性能研究[J]. 地震工程与工程振动, 2021, 41(1):63-69.
44. 唐红元, 周欢, 郭浩翔, 等. 冷成型不锈钢方管轴心受压柱承载力试验[J]. 兰州理工大学学报, 2019, 45(3):126-131.
45. 唐红元, 马梦淋, 陈俊龙, 等. CFRP布加固不锈钢圆管短柱轴心受压试验研究[J].工业建筑,2019, 49(10):185-191+207.
46. 唐红元, 许龙, 马梦淋, 等.外贴CFRP加固不锈钢方管短柱轴心受压试验研究[J]. 工业建筑, 2018, 48(7):188-195.
47. 唐红元, 王灿军, 潘毅, 王忠凯.CFRP加固冷弯薄壁槽钢长构件轴心受压承载力研究[J]. 土木建筑与环境工程, 2017,39(3):50-57.
48. 唐红元,陈俞英,蒋鑫霖,刘晋君. 内置带孔灌浆管的预填骨料钢管混凝土短柱轴压力学性能试验研究[J].建筑结构学报,2024,45(S1):22.
编辑:教学办
