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立足钢结构传统分析与设计,着眼钢结构标准化与装配化发展趋势,应用自动化与智能化高新技术手段,服务国家城镇安全与建筑工业化战略。
过往研究背景:建筑钢结构在复杂受力状态下的全过程性能研究,包括材料损伤断裂、连接失效破坏和结构体系连续性倒塌。这些研究,形成了学术专著一本、SCI检索英文期刊论文50余篇、EI检索中文期刊论文10余篇,以及国际、国内会议论文数十篇。研究注重质量,绝少incremental research,论文也均发表于Engineering Structures、Journal of Structural Engineering和Engineering Fracture Mechanics等业内顶刊。
现阶段研究重点:钢结构智能设计与反演,钢结构节点的标准化设计,钢结构节点在静、动载作用下的先进设计方法。这些研究,均有国家级项目支撑,经费支持无忧。
未来(中短期)研究计划:使用传统与智能手段实现钢结构的修复与增韧。站稳传统钢结构阵地,一脚迈向智能建造领域。
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支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg科研奖励
[1] 中国铁道学会科学技术奖,一等奖(高铁客站钢结构多灾防御基础理论、关键技术与应用),2024年,中国铁道学会.
[2]Outstanding Paper Award ("A new generalized component method for predicting the full range behavior of bolted bearing type joints"), The 10th Eurosteel Conference, Sep 12-14, Amsterdam, 2023.
[3] F5000中国精品科技期刊顶尖学术论文(“大跨度空间结构连续性倒塌研究方法与现状”,2013年4月刊于建筑结构学报),2016年,中国科技信息研究所.
专著
[1] 赵宪忠,闫伸. 《空间结构连续性倒塌机制与设计对策》,中国建筑工业出版社,2018,ISBN 978-7-112-23027-3.
代表性国际期刊论文
[47] Yan S, Wen F, Zhao X*, Chen Y. (2025). Seismic behaviour of SRC columns with high encased steel ratio. Steel and Composite Structures, 54(2), 157-174.
[46] Yan S, Geng D*, Dai N, Long M, Bai Z. (2025). An improved dual shear unified strength model (IDSUSM) considering strain softening effect. International Journal of Damage Mechanics, 34(2), 213-235.
[45] Zhou J*, Yan S, Rasmussen K, Deierlein G. (2025). Development-and-validation of a model to calculate full-range response of bolted angle cleats. Journal of Constructional Steel Research, 228, 109397.
[44] Dai L, Shi J, Yan S, Ren C*. (2025). Experimental and theoretical investigation of beam-to-upright subassemblies for HBSSR against progressive collapse. Journal of Constructional Steel Research, 227, 109334.
[43] Zhao X, Wang C, Yan S*, Guo X, Zhang H. (2025). Reliability-based capacity safety factor for G20Mn5 cast steel joints. Engineering Structures, 323, 119237.
[42] Dai L, Shi J, Yan S, Ren C*. (2025). Experimental and numerical investigation on ductile fracture of Q235 cold-formed thin-walled steel. Journal of Constructional Steel Research, 224, 109130
[41] Zhou J, Yan S*, Rasmussen K, Zhang M. (2025). Test-and-FE-based method for obtaining complete stress-strain curves of structural steels including fracture. Journal of Constructional Steel Research, 224, 109095.
[40] Dai L, Yao H, Yan S, Ren C*. (2024). Progressive collapse of beam-to-upright subassemblies of steel storage racks under a column removal scenario. Thin-Walled Structures, 205, 112575.
[39] Zhao X, Lyu J, Xu X, Yan S*. (2024). Flexural behaviour of shallow-embedded steel column bases. Engineering Structures, 318, 118738.
[38] Zhou J, Rasmussen K, Yan S*, Deierlein G, Zhang H. (2024). Generalised component method for bolted bearing type connections incorporating block shear failure. Journal of Constructional Steel Research, 220, 108849.
[37] Liu X, Yan S, Zhou J, Rasmussen K*, Deierlein G. (2024). Measurement of strengths and fracture initiation strains of weld metal and HAZ in steel joints using miniature coupons. Engineering Fracture Mechanics, 307, 110293.
[36] Xu X, Lyu J*, Yan S. (2024). A component method for full-range behaviour of embedded steel column bases. Buildings, 14(8), 2337.
[35] Zhou J, Yan S*, Zhang H, Rasmussen K, Deierlein G. (2024). Generalised component method for bolted bearing type connections. Steel Construction, 17(4), 173-185.
[34] Lyu J, Yan S*, Zhao X, Chen X, Wu X, Xu X, Gao F. (2024). Behaviour of in-service CHS gap K-joints strengthened with external stiffeners. Thin-Walled Structures, 200, 111897.
[33] Yan S, Geng D*, Dai N, Long M, Bai Z. (2024). A simplified method for the stress analysis of underground transfer structures crossing multiple subway tunnels. Computer Modeling in Engineering & Sciences, 139(3), 2893-2915.
[32] Zhao X, Xu Z, Yan S*. (2024). Collapse-resisting mechanism and damage propagation pattern of suspended-domes following sudden cable loss. Journal of Constructional Steel Research, 213, 108338.
[31] Xu Z*, Yan S. (2023). Progressive-collapse mechanism of suspended-dome structures subjected to sudden cable rupture. Buildings, 13(6), 1533.
[30] Lyu J, Yan S*, He S, Zhao X, Rasmussen K. (2023). Mechanical model for the full range behaviour of bolted T-stubs. Journal of Constructional Steel Research, 200, 107652.
[29] Yan S, Lyu J, Wu A*. (2022). Buckling resistance of steel circular tubes strengthened by welding cover plates. Journal of Constructional Steel Research, 199, 107631.
[28] Zhao X, Lyu J, Yan S*, Chen X, Wu X, Xu X, Gao F. (2022). Performance evaluation of axial-loaded circular steel tubes strengthened by welding under service load. Engineering Structures, 271, 114948.
[27] Wan W, Yan S*, Zhang H, Rasmussen K. (2022). A generalised component method for bolted angle connections. Journal of Constructional Steel Research, 198, 107530.
[26] Zhao X, Wen F, Yan S*. (2022). Behavior of multi-steel reinforced concrete columns with encased steel H-sections. Engineering Structures, 264, 114463.
[25] Liu X, Yan S*, Rasmussen K, Deierlein G. (2022). Experimental investigation of the effect of Lode angle on fracture initiation of steels. Engineering Fracture Mechanics, 271, 108637.
[24] Liu X, Yan S*, Rasmussen K, Deierlein G. (2022). Verification of void growth-based exponential damage function for ductile crack initiation over the full range of stress triaxialities. Engineering Fracture Mechanics, 269, 108571.
[23] Yan S*, Rasmussen K. (2021). Generalised Component Method-based finite element analysis of steel frames. Journal of Constructional Steel Research, 187, 106949.
[22] Zhao X, He S, Yan S*. (2021). Full-range behaviour of T-stubs with various yield line patterns. Journal of Constructional Steel Research, 186, 106919.
[21] Yan S*, Jiang L, Rasmussen K, Zhang H. (2021). Full-range behaviour of top-and-seat angle connections. Journal of Structural Engineering, 147(1), 04020308.
[20] Yan S, Zhao X*, He P. (2020). Ductility and fracture models of G20Mn5 cast steel. Journal of Constructional Steel Research, 175, 106363.
[19] Ren C, Zhang P, Yan S, Dai L*. (2020). Analysis and design of cold-formed steel storage rack uprights under localised fires. Structures, 27, 2082-95
[18] Wang C, Zhang H, Rasmussen K, Reynolds J, Yan S*. (2020). System reliability-based limit state design of support scaffolding systems. Engineering Structures, 216, 110677.
[17] Yan S*, Rasmussen K, Jiang L, Zhu C, Zhang H. (2020). Experimental evaluation of the full-range behaviour of steel beam-to-column connections. Advanced Steel Construction, 16(1), 77-84.
[16] Yan S*, Jiang L, Rasmussen K. (2020). Full-range behaviour of double web angle connections. Journal of Constructional Steel Research, 166, 105907.
[15] Yan S*, Rasmussen K, Liu X, Dai L, Zhao X. (2019). Behaviour of H-section purlin connections in resisting progressive collapse of roofs. Engineering Structures, 201, 109849.
[14] Zhu C, Rasmussen K, Yan S*, Zhang H. (2019). Experimental full-range behaviour assessment of bolted moment end-plate connections. Journal of Structural Engineering, 145(8), 04019079.
[13] Liu W, Zhang H, Rasmussen K, Yan S*. (2019). System-based limit state design criterion for 3D steel frames under wind loads. Journal of Constructional Steel Research, 157, 440-49.
[12] Yan S, Zhao X*, Rasmussen K, Zhang H. (2019). Identification of critical members for progressive collapse analysis of single-layer latticed domes. Engineering Structures, 188, 111-20.
[11] Sena Cardoso F, Zhang H, Rasmussen K, Yan S*. (2019). Reliability calibrations for the design of cold-formed steel portal frames by advanced analysis. Engineering Structures, 182, 164-71.
[10] Zhu C, Rasmussen K, Yan S*. (2019). Generalised Component Model for Structural Steel Joints. Journal of Constructional Steel Research, 153, 330-42.
[9] Liu J, Yan S, Zhao X*. (2018). Simulation of fracture of a tubular X-joint using a shear-modified Gurson-Tvergaard-Needleman model. Thin-Walled Structures, 132, 120-35.
[8] Yan S, Zhao X*, Chen Y, Xu Z, Lu Y. (2018). A new type of truss joint for prevention of progressive collapse. Engineering Structures, 167, 203-13.
[7] Yan S, Zhao X*. (2018). A fracture criterion for fracture simulation of ductile metals based on micro-mechanisms. Theoretical and Applied Fracture Mechanics, 95, 127-42.
[6] Yan S, Zhao X*, Wu A. (2018). Ductile fracture simulation of constructional steels based on yield-to-fracture stress-strain relationship and micro-mechanism based fracture criterion. Journal of Structural Engineering, 144(3), 04018004.
[5] Tong X*, Gao S, Liu S, Ye Z, Chen P, Yan S, Zhao X, Du L, Liu X, Luan K. (2017). Monitoring a progressive collapse test of a spherical lattice shell using high-speed videogrammetry. The Photogrammetric Record, 32(159), 230-54.
[4] Yan S, Zhao X*, Lu Y. (2017). Collapse-resisting mechanisms of planar trusses following sudden member loss. Journal of Structural Engineering, 143(9), 04017114.
[3] Zhao X*, Yan S, Chen Y, Xu Z, Lu Y. (2017). Experimental study on progressive collapse-resistant behavior of planar trusses. Engineering Structures, 135, 104-16.
[2] Zhao X*, Yan S, Chen Y. (2017). Comparison of progressive collapse resistance of single-layer latticed domes under different loadings. Journal of Constructional Steel Research, 129, 204-14.
[1] Zhao X*, Yan S, Xu Z, Wu A. (2015). Research and application of beam string structures. Structural Engineering International - Journal of IABSE, 25(1), 26-33.
代表性国内期刊论文
[6] 赵宪忠,许晓旭,闫伸*. (2024). 考虑轴力与底板约束的埋入式钢柱脚刚度模型. 哈尔滨工业大学学报,56(2),18-27.
[5] 夏柳,武伟超*,潘艾刚,王亚飞,王强,闫伸. (2023). 单点及三点阵列毁伤模式对钢筋混凝土梁的毁伤效能比较. 兵工学报,44(12),3851-3861.
[4] 赵宪忠*,闫伸,陈以一,林颖儒. (2017). 沈阳文化艺术中心单层折板空间网格结构整体模型试验研究. 建筑结构学报,38(1),42-51.
[3] 赵宪忠*,闫伸,陈以一. (2016). 空间网格结构连续性倒塌试验研究. 建筑结构学报,37(6),1-8.
[2] 赵宪忠*,闫伸,陈以一. (2013). 大跨度空间结构连续性倒塌研究方法与现状. 建筑结构学报,34(4), 1-14.
[1] 赵宪忠,徐祥斌*,闫伸,王彬,陈以一,范重,彭翼,李丽. 空间复杂钢管节点试验研究. 工程力学,27(S2),207-11.
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