基本信息
姓名:姜健
出生年月:1984年1月
學位:博士
職稱:教授、博導
職務:建工系主任
研究領域:建築結構抗火、重大基礎設施防災減災、大規模氫氣儲運
招收研究生專業:結構工程、防災減災工程及防護工程
E-mail:jian.jiang@cumt.edu.cn
個人簡介
姜健,1984年1月生,教授,博士生導師,建工系主任。入選國家重大人才工程青年項目,江蘇特聘教授,伟德官网bv攀登學者。英國愛丁堡大學獲得博士學位,曾任美國國家标準與技術研究院(NIST)客座研究員。主要從事鋼結構及鋼-混凝土組合結構的抗火理論與設計方法研究、結構抗連續性倒塌、重大基礎設施防災、地下氫氣儲能等研究。現兼任中國建築金屬結構協會鋁結構分會理事、中國建築學會抗火專業委員會委員、江蘇省地震學會地震工程專業委員會秘書長,擔任國際期刊《Concepts in Civil Engineering and Architecture》副主編,《Journal of Civil, Construction and Environmental Engineering》、《Research on Engineering Structures and Materials》、《工程抗震與加固改造》等編委。主持國家自然科學基金面上項目、青年基金項目、國家自然科學基金重大儀器項目子課題、國家消防救援局重點研發項目等10餘項,研究成果獲中國鋼結構協會創新人才獎1項、江蘇省科學技術二等獎1項、德國紐倫堡國際發明展覽會金獎。發表高水平學術論文90餘篇,其中以第一作者或通訊作者在《Engineering Structures》、《Journal of Structural Engineering》、《建築結構學報》、《土木工程學報》等頂級期刊發表SCI/EI論文50餘篇,出版中英文學術著作各1部,參與編寫國家标準《建築鋼結構防火技術規範》、CECS标準《民用建築防爆設計标準》等行業标準4部。
教育經曆
2002.09 - 2006.06 天津大學 本科
2006.09 - 2009.06 同濟大學 碩士
2009.09 - 2012.10 英國愛丁堡大學 博士
科研、學術與訪學工作經曆
2012.11 - 2014.11 同濟大學 建築工程系 博士後
2015.02 - 2019.02 美國國家标準與技術研究院 客座研究員
National Institute of Standards and Technology,Guest Researcher
2019.04 - 至今 伟德官网bv 伟德官网bv 教授
主持或參加科研項目(課題)
國家自然科學基金面上項目,考慮火災蔓延和降溫影響的高層鋼框架結構連續倒塌機理與設計理論研究(52078478),2021.01-2024.12 (主持)
國家自然科學基金青年基金,火災下高層建築鋼框架結構連續性倒塌的模式與設計方法研究(51408418),2015.01-2017.12 (主持)
國家消防救援局科技計劃項目(應用創新),建築混凝土框架結構火災後損傷辨識及安全性評估技術研究(2023XFCX18),2023.06-2024.11(主持)
江蘇省碳達峰碳中和科技創新專項資金(前沿基礎),氫能内襯式岩洞大規模長時高效存儲機理與關鍵技術(SBK2022060088),2022.10-2025.10(參與)
國家自然科學基金重大科研儀器項目,真實火場環境隧道結構熱力耦合損傷全過程模拟實驗系統(52127814),2022.01-2026.12(參與)
公安部消防局重點攻關項目,《火災中典型建築倒塌預測預警技術研究》子課題 “火災條件下大跨度鋼結構的結構穩定性與倒塌行為模拟分析研究”(2015XXGG06),2015.12-2017.7(參與)
國家重大科技專項研究項目《AP1000核島重大關鍵設計技術研究》子課題“抗震I類大型結構模塊抗火性能研究”(2010ZX06001-001),2012.10-2013.6(參與)
國家自然科學基金面上項目,預應力張弦梁結構抗火性能與防火設計方法研究(51578420),2016.01-2019.12(參與)
上海市科委,《上海中心大廈基于BIM平台的消防安全運行關鍵技術研究》-子課題“火災下整體結構抗倒塌性能評估及幕牆結構安全性研究”(14231200803),2014.5-2015.12(參與)
國家自然科學基金重大國際合作研究項目,高層建築鋼結構抵抗火災與爆炸下連續性倒塌的魯棒性研究(51120185001),2012.01-2016.12(參與)
中國博士後科學基金第53批面上資助,火災作用下高層建築鋼結構連續性倒塌的魯棒性研究(2013M531216),2013.05-2014.10(主持)
上海市博士後科研資助計劃面上項目,高層建築鋼結構抵抗火災下連續性倒塌的魯棒性研究(13R21416100),2013.03-2014.10(主持)
代表性論文(*通訊作者)
Y.F. Cao, Y.L. Lu, J. Jiang*, W. Chen and J.H. Ye. (2024) Experimental Study on Behavior of Top-and-seat-angle with Double Web-angle (TSDW) Connections under Fire Conditions. Thin-Walled Structures, 194: 111304. (SCI)
Y.F. Cao, J. Jiang*, Y.L. Lu, W. Chen and J.H. Ye. (2023) Progressive collapse of steel structures exposed to fire: A critical review. Journal of Constructional Steel Research, 207: 107985. (SCI)
Y.L. Lu, J. Jiang*, Q.J. Zhang, W.Y. Cai, W. Chen and J.H. Ye. (2023) Experimental and numerical investigation on mechanical behavior of Q355 steel and connections in fire conditions, Engineering Structures, 281:115765. (SCI)
陳橋,姜健*,蔡文玉,楊衛明,陳偉,葉繼紅. (2023) 火災全過程下10.9級高強螺栓斷裂性能試驗研究, 土木工程學報,56(7): 55-68. (EI)
陸堯亮,姜健*,蔡文玉,陳偉,葉繼紅. (2023) 高溫下(後)10.9級高強螺栓蠕變性能研究, 建築結構學報,44(6): 222-234. (EI)
陳橋,姜健*,蔡文玉,陳偉,葉繼紅. (2023) 基于SMCS模型的高強螺栓及節點火災全過程斷裂性能模拟,工程力學.(網絡首發)(EI)
張其傑,姜健*,蔡文玉,楊衛明,陳偉,葉繼紅. (2023) 高應力三軸度下Q355鋼火災全過程斷裂性能試驗研究, 工程力學.(網絡首發)(EI)
Y.L. Lu, J. Jiang*, Q. Chen, W.Y. Cai, W. Chen and J.H. Ye. (2022) Fracture behavior of Grade 10.9 high-strength bolts and T-stub connections in fire, Journal of Constructional Steel Research, 199: 107618. (SCI)
Y.L. Lu, J. Jiang*, W.Y. Cai, W. Chen and J.H. Ye. (2022) Creep behavior of Grade 10.9 high-strength bolts under and after fire. Construction and Building Materials, 351: 128858. (SCI)
Y. Du, H.H. Qi, J. Jiang* and J.Y. Richard Liew. (2022) Experimental study on the dynamic behaviour of expanded-shale lightweight concrete at high strain rate. Materials and Structures, 55:4. https://doi.org/10.1617/s11527-021-01846-z. (SCI)
J. Jiang*, H.H. Qi, Y.L. Lu, G.Q. Li, W. Chen and J.H. Ye. (2022) A State-of-the-art Review on Tensile Membrane Action in Reinforced Concrete Floors Exposed to Fire. Journal of Building Engineering, 45:103502. (SCI)
姜健, 呂大剛, 陸新征, 李國強, 葉繼紅. (2022) 建築結構抗連續性倒塌研究進展與發展趨勢. 建築結構學報,43(1):1-28. (EI)
姜健,曹逸凡,張其傑,呂大剛,陸新征,李國強, 葉繼紅. (2022) 建築結構魯棒性定量判定方法的研究進展. 建築鋼結構進展,(2):1-21.
G.Q. Li, J.Z. Zhang, L.L. Li, B.H. Jiang, T.C. Yang and J. Jiang*. (2021) Progressive Collapse Resistance of Steel Framed Buildings under Extreme Events. Advanced Steel Construction, 17(3): 318-330. (SCI)
J. Jiang, Y.L. Lu, X. Dai*, G.Q. Li, W. Chen and J.H. Ye. (2021) Disproportionate Collapse of Steel-framed Gravity Buildings under Travelling Fires. Engineering Structures, 245:112799. (SCI)
Y. Du, H.H. Qi, J. Jiang*, J.Y. Richard Liew and S. Li. (2021) Thermo-mechanical behaviour of ultra-high strength concrete encased steel columns in standard fires. Engineering Structures, 231:111757. (SCI)
Y.Z. Wang, T.G. Xu, Z.Q. Liu, G.Q. Li and J. Jiang*. (2021) Seismic Behavior of Steel Reinforced Concrete Cross-Shaped Columns after Exposure to High Temperatures. Engineering Structures, 230, 111723. (SCI)
Y.Z. Wang, X. Wang, G.Q. Li, J. Jiang* and T.G. Xue. (2021) Residual Strength of L-shaped Steel Reinforced Concrete Columns after Exposure to High Temperatures. KSCE Journal of Civil Engineering, DOI 10.1007/s12205-021-0658-9. (SCI)
J. Jiang, W.Y. Cai*, W. Chen, J.H. Ye and G.Q. Li. (2021) An Insight into Eurocode 4 Design Rules for Thermal Behaviour of Composite Slabs. Fire Safety Journal, 103084. (SCI)
姜健, 陸堯亮, 李國強, 陳偉, 葉繼紅. (2021) 火災全過程中高層鋼框架結構抗連續性倒塌性能及控制措施. 建築結構學報, 42(增1):174-185. (EI)
Y. Du, H.H. Qi, J. Jiang*, J.Y. Richard Liew and G.Q. Li. (2020) Mechanical Properties of 1670MPa Parallel Wire Strands at Elevated Temperatures. Construction and Building Materials, 263: 120582. (SCI)
J. Jiang, W.Y. Cai*, G.Q. Li, W. Chen and J.H. Ye. (2020) Progressive Collapse of steel-framed gravity buildings under Parametric Fires. Steel and Composite Structures, 36(4): 383-398. (SCI)
W.Y. Cai, J. Jiang* and G.Q. Li. (2020) Analysis and simulation on fracture of structural steel at elevated temperatures based on extended finite element method. Fire Safety Journal, 103022. (SCI)
G.Q. Li, J.R. Miao, L.X. Song, W.Y. Cai and J. Jiang*. (2020) Investigation on Postfire Residual Capacity of High-Strength Steel Columns with Axial Restraint. Journal of Structural Engineering, 146(9): 04020182. (SCI)
J. Jiang, J. Main, J. Weigand and F. Sadek*. (2020) Reduced-order modeling of composite floor slabs in fire. I: Heat transfer analysis. Journal of Structural Engineering, 146(6): 04020080. (SCI)
J. Jiang, J. Main, J. Weigand and F. Sadek*. (2020) Reduced-order modeling of composite floor slabs in fire. II: Thermal-structural analysis. Journal of Structural Engineering, 146(6): 04020081. (SCI)
Y.W. Li, G.Q. Li, F.F. Sun and J. Jiang*. (2019) Mitigating Inter-story Drift Concentration of Concentrically Braced Steel Frames Using Energy-Dissipative Columns. Journal of Earthquake Engineering, DOI: 10.1080/13632469.2019.1682088. (SCI)
J. Jiang, A. Pintar, J. M. Weigand, J. A. Main, and F. Sadek (2019) Improved Calculation Method for Insulation-based Fire Resistance of Composite Slabs. Fire Safety Journal, 105: 144-153 (SCI).
J. Jiang and G.Q. Li*. (2019) Mitigation of Fire-induced Disproportionate Collapse of Steel Framed Structures Using Bracing Systems. Advanced Steel Construction, 15(2): 192-202. (SCI)
姜健, 蔡文玉, 陳偉, 葉繼紅, 李國強. (2019) 基于分條殼單元模拟帶壓型鋼闆組合樓闆抗火性能. 建築結構學報, 40(增1): 214-223. (EI)
J. Jiang, C.H. Wang, G.B. Lou, et al. (2018) Quantitative Evaluation of Progressive Collapse Process of Steel Framed Structures Exposed to Fire. Journal of Constructional Steel Research, 50: 277-287. (SCI)
J. Jiang and G.Q. Li*. (2018) Parameters Affecting Tensile Membrane Action of Reinforced Concrete Floors subjected to Elevated Temperatures. Fire Safety Journal, 96: 59-73. (SCI)
Z.X. Hou, C. Gong, Y.Z. Sun, J. Jiang*, et al. (2018) Seismic behavior of bolted connections with slot bolt holes at ambient and elevated temperature. Advanced Steel Construction, 14(4): 651-667. (SCI)
J. Jiang, J. Main, J. Weigand and F. Sadek*. (2018) Thermal performance of composite slabs with profiled steel decking exposed to fire effects. Fire Safety Journal, 95: 25-41. (SCI)
G.Q. Li, T.C. Yang, J. Jiang*, Y. Lu and S.W. Chen. (2017) Effects of Blast-induced Column Failure Pattern on Collapse Behavior of Steel Frames. Advanced Steel Construction, 14(3): 376-390. (SCI)
J. Jiang and G.Q. Li*. (2017) Disproportional Collapse of 3D Steel-framed Structures Exposed to Various Compartment Fires. Journal of Constructional Steel Research, 138: 594-607. (SCI)
G.Q. Li, M.D. Pang, F.F. Sun, J. Jiang* and D.Z. Hu. (2017) Seismic behavior of coupled shear wall structures with various concrete and steel coupling beams. The Structural Design of Tall and Special Buildings. doi.org/10.1002/tal.1405. (SCI)
G.Q. Li, F.L. Gu, J. Jiang* and F.F. Sun. (2017) Cyclic Behavior of Steel Beam-Concrete Wall Connections with Embedded Steel Columns (I): Experimental Study. Steel & Composite Structures, 23(4): 399-408. (SCI)
G.Q. Li, F.L. Gu, J. Jiang* and F.F. Sun. (2017) Cyclic Behavior of Steel Beam-Concrete Wall Connections with Embedded Steel Columns (II): Theoretical Study. Steel & Composite Structures, 23(4): 409-420. (SCI)
J. Jiang and G.Q. Li. (2017) Progressive collapse analysis of 3D steel frames with concrete slabs exposed to localized fire. Engineering Structures. 149: 21-34. (SCI)
G.Q. Li, N.S. Zhang and J. Jiang *. (2017) Experimental investigation on thermal and mechanical behaviour of composite floors exposed to fire. Fire Safety Journal, 89: 63-76. (SCI)
姜健, 李國強. (2016) 支撐布置對火災下鋼框架結構抗連續性倒塌性能影響研究. 防災減災工程學報, 36(3): 394-398.
J. Jiang, A.S. Usmani, F. McKenna. (2015) OpenSees software architecture for the analysis of structures in fire. Journal of Computing in Civil Engineering, 29(1): 47-65. (SCI)
J. Jiang, G.Q. Li and A.S. Usmani. (2015) Effect of bracing systems on the fire-induced progressive collapse of steel structures. Fire Technology, 51(5): 1249-1273. (SCI)
G.Q. Li,J. Jiang * and Q. Zhu. (2015) Local Buckling of Compression Flanges of H-beams with Corrugated Webs. Journal of Constructional Steel Research, 112: 69-79. (SCI)
J. Jiang, G.Q. Li and A.S. Usmani. (2015) Analysis of Composite Steel-concrete Beams Exposed to Fire Using OpenSees. Journal of Structural Fire Engineering, 6(1): 1-20. (EI)
J. Jiang, L.Z. Chen, S.C. Jiang, G.Q. Li, A.S. Usmani. (2015) Fire safety assessment of Super Tall Buildings: A Case Study on Shanghai Tower. Case Studies in Fire Safety, 4: 28-38.
姜健,Asif Usmani,李國強. (2015) 基于OpenSees的火災下鋼結構連續性倒塌分析. 防災減災工程學報, 35(1): 1-5.
姜健,李國強. (2015) 結構抗連續性倒塌風險評估與設計-IStructE指南介紹. 建築結構, 45(4): 33-40.
J. Jiang, G.Q. Li and A.S. Usmani. (2014) Progressive collapse mechanisms of steel frames exposed to fire. Advances in Structural Engineering, 17(3): 381-398. (SCI)
J. Jiang, A.S. Usmani and G.Q. Li. (2014) Modelling of steel-concrete composite structures in fire using OpenSees. Advances in Structural Engineering, 17(2): 249-264. (SCI)
姜健,李國強. (2014) 建築鋼結構抗連續性倒塌各國規範設計方法概述. 解放軍理工大學學報(自然科學版), 15(6): 540-551.
J. Jiang and A.S. Usmani. (2013) Modelling of steel frame structures in fire using OpenSees. Computers & Structures, 118: 90-99. (SCI)
J. Jiang, G.Q. Li and Y. Lu. (2013) Vibration control of cables with damped flexible end restraint: theoretical model and experimental verification. Journal of Sound and Vibration, 332(15): 3626-3645. (SCI)
姜健, 李國強. (2012) 拉索端部彈性約束振動控制. 振動、測試與診斷, 31(1): 120-124. (EI)
姜健, 李國強, 郝坤超. (2010) 拉索端部彈性約束振動控制研究(Ⅰ)—理論模型. 地震工程與工程振動, 30(1): 118-125.
姜健, 李國強, 郝坤超. (2010) 拉索端部彈性約束振動控制研究(Ⅱ)—試驗驗證. 地震工程與工程振動, 30(2): 92-98.
姜健, 李國強, 郝坤超. (2009) 拉索平面内自由振動影響因素分析. 振動、測試與診斷, 29(3): 308-312. (EI)
學術專著
李國強, 姜健, 蔣彬輝, 張驚宙, 楊濤春, 王開強, 李六連. 鋼框架建築結構抗連續性倒塌性能與分析. 北京: 中國建築工業出版社, 2021.
J. Jiang, J.A. Main, F. Sadek and J. Weigand. Numerical modeling and analysis of heat transfer in composite slabs with profiled steel decking. NIST Technical Note 1958, National Institute of Standards and Technology, Gaithersburg, MD, 2017.
Jian Jiang and Asif Usmani.“Nonlinear Thermomechanical Analysis of Structures Using OpenSees”, Scholar’s Press, Deutschland, Germany, 2015.
授權發明專利
一種級聯高能地震-火災耦合試驗系統, ZL 2021 1 0517180.0, 2022.05 (3/6)
一種隧道結構多維空間加載火災試驗系統及其實施方法, ZL 2021 1 0211756.0, 2022.01 (3/4)
一種火災環境下低損傷輕鋼結構耐火組合樓蓋, ZL 2020 1 0749157.X, 2021.05 (4/6)
一種高溫耦合環境分級水冷加載試驗梁系統, ZL 2021 1 0517019.3, 2022.06 (4/5)
一種塔式燃燒車, ZL 2021 1 0211745.2, 2022.07.22 (4/7)
參與制定國家行業标準
《建築鋼結構防火技術規範》
《民用建築防爆技術規程》
獲得獎勵
2023年,入選國家重大人才工程青年項目;
2023年,入選美國斯坦福大學發布的“全球前2%頂尖科學家榜單” (World's Top 2% Scientists);
2023年,德國紐倫堡世界發明展覽會金獎(3/5);
2023年,新加坡世界發明展覽會金獎(3/5);
2022年,中國鋼結構協會技術創新獎(8/10);
2021年,獲聘江蘇特聘教授;
2021年,中國鋼結構協會創新人才獎(1/1);
2020年,江蘇省科學技術二等獎(5/9);
2019年,第19屆全國現代結構工程研讨會中青年優秀論文獎;
2014年,第6屆結構災害防護國際會議,最佳論文獎(Highly Commendable Paper Award);
2014年,同濟大學優秀博士後。
