李征

职称:教授

学位:博士

    研究方向

    «钢木混合结构、木竹结构、钢结构

    «风力发电支撑结构及能源基础设施

    «结构智能设计与优化、结构服役性能智能预测与评估

    «强震损伤控制及震可恢复功能结构

    «生物质负碳结构材料及结构减碳技术

    研究项目

    一、代表性科研项目

    国家自然科学基金优秀青年科学基金项目, 钢木混合结构, 项目负责人.

    国家自然科学基金面上项目, 基于预应力-耗能耦合机制的自复位木框架结构抗震机理与时变性能研究, 项目负责人.

    国家自然科学青年基金项目, 自复位预应力胶合木框架梁柱节点的受力机理与设计方法研究, 项目负责人.

    国家重点研发计划重点专项子课题, 多层木结构及木混合结构体系研发及其受力性能, 项目负责人.

    上海市青年科技启明星计划(A类), 钢木混合结构功能恢复机理与可恢复性设计方法, 项目负责人.

    上海市青年科技英才扬帆计划, 自复位钢框架-木剪力墙混合抗侧力体系协同工作性能和破坏机理研究, 项目负责人.

    上海市晨光学者计划, 基于自复位-摩擦耗能混合系统的低损伤木梁柱节点工作原理与破坏机理研究, 项目负责人.

    上海市教育委员会土木工程高峰学科基金, 基于机器学习的自复位胶合木结构服役性能演化机理与抗震时变性能, 项目负责人.

    上海市教育委员会土木工程高峰学科基金, 基于机器学习的自复位胶合木梁柱节点全寿命时变性能及设计理论研究, 项目负责人.

    二、代表性企业委托项目

    大跨度复杂钢木结构设计关键技术研究, 项目负责人.

    基于直接张拉施工法的风力发电钢结构法兰螺栓预拉力损失研究, 项目负责人.

    风力发电塔力学性能优化研究, 项目负责人.

    钢木混合结构设计手册编制, 项目负责人.

    钢木混合结构力学性能研究, 项目负责人.

    出版论著

            出版学术专著3部、编著2部;发表SCI期刊论文100余篇(含ESI热点、ESI高被引、期刊年度高被引等多篇)、《土木工程学报》和《建筑结构学报》论文20余篇;主参编国际、国家、地方及团体标准14部;代表性论著如下:
    一、代表性期刊论文

    [1] Xiuzhi Zheng, Minjuan He, Frank Lam, Xiaofeng Sun, Feng Liang, Zheng Li*. Experimental and numerical investigation on long-term prestressing force losses of post-tensioned timber joints with different structural details [J]. Journal of Structural Engineering ASCE, 2022, 148(9), 04022124. (SCI)

    [2] Minjuan He, Xiuzhi Zheng, Frank Lam, Zheng Li*. Potential loss in prestressing tendon forces under long-term service conditions: cross-laminated timber shear wall applications [J]. Journal of Structural Engineering ASCE, 2022, 148(3), 04021284. (SCI: 000742414800012)

    [3] Jing Luo, Minjuan He, Duo Tao, Zheng Li*. Analytical investigations on the glulam beam-to-column connections reinforced with knee braces [J]. Journal of Architectural Engineering ASCE, 2022, 28(2), 04022004. (SCI: 000782595400013)

    [4] Jing Luo, Minjuan He, Zheng Li*, Zhaozhuo Gan, Xijun Wang, Feng Liang. Experimental and numerical investigation into the fire performance of glulam bolted beam-to-column connections under coupled moment and shear force [J]. Journal of Building Engineering, 2022, 46, 103804. (SCI: 000729553000003)

    [5] Jing Luo, Minjuan He, Zheng Li*, Jiajia Ou, Guirong He. Seismic performance evaluation of glulam structures with either braced frames or knee-braced frames as the main lateral load resisting system [J]. Soil Dynamics and Earthquake Engineering, 2022, 154, 107134. (SCI: 000779509500001)

    [6] Xiaofeng Zhang, Jing Luo, Lisheng Luo, Youfu Sun, Zheng Li*. Experimental and numerical investigation into the bending behavior of stiffened hollow glulam beams [J]. Journal of Building Engineering, 2022, 45, 103488. (SCI: 000711362500004)

    [7] Zheng Li, Xijun Wang, Minjuan He, Zhan Shu*, Yi Huang, Ao Wu, Zhong Ma. Mechanical performance of pre-fabricated metal dovetail connections for Cross-Laminated Timber (CLT) structures [J]. Construction and Building Materials, 2021, 303, 124468. (SCI: 000696931300002)

    [8] Zheng Li, Wei Feng, Jiajia Ou, Feng Liang, Minjuan He*. Experimental investigations into the mechanical performance of glulam dowel-type connections with either bolts or screws as fasteners [J]. Journal of Wood Science, 2021, 67, 71. (SCI: 000731249200001)

    [9] Minjuan He, Xiaofeng Sun, Haiqing Ren, Zheng Li*, Wei Feng. Experimental study on the system effect of bending cross-laminated timber fabricated with Karamatsu larch [J]. Construction and Building Materials, 2021, 299, 124271. (SCI: 000686001900006)

    [10] Zheng Li, Jing Luo, Minjuan He*, Duo Tao, Feng Liang, Guirong He. Seismic performance of multi-story glulam post-and-beam structures reinforced with knee-braces [J]. Journal of Building Engineering, 2021, 44, 102887. (SCI: 000700071500001)

    [11] Zheng Li, Xijun Wang, Minjuan He*. Experimental and analytical investigations into lateral performance of cross laminated timber (CLT) shear walls with different construction methods [J]. Journal of Earthquake Engineering, 2021, DOI: 10.1080/13632469.2020.1815609. (SCI: 000566645700001)

    [12] Fei Chen, Zheng Li*, Minjuan He, Yanbo Wang, Zhan Shu, Guirong He. Seismic performance of self-centering steel-timber hybrid shear wall structures [J]. Journal of Building Engineering, 2021, 43, 102530. (SCI: 000697166500001)

    [13] Xiaofeng Sun, Minjuan He, Feng Liang, Zheng Li*, Liji Wu, Yongliang Sun. Experimental investigation into the mechanical properties of scrimber composite for structural applications [J]. Construction and Building Materials, 2021, 276, 122234. (SCI: 000634522000054)

    [14] Zheng Li*, Fei Chen, Minjuan He, Ruirui Zhou, Ye Cui, Yongliang Sun, Guirong He. Lateral performance of self-centering steel-timber hybrid shear walls with slip friction dampers: experimental investigation and numerical simulation [J]. Journal of Structural Engineering ASCE, 2021, 147(1), 04020291. (SCI: 000590478300008)

    [15] Zheng Li, Xijun Wang, Minjuan He*, Jiajia Ou, Minghao Li, Qi Luo, Hanlin Dong. Structural damage evaluation of multistory timber-steel hybrid structures through shake table tests [J]. Journal of Performance of Constructed Facilities ASCE, 2021, 35(1), 04020139. (SCI: 000641763700021)

    [16] Qi Luo, Minjuan He, Fei Chen, Zheng Li*. Probabilistic seismic performance assessment of timber-steel hybrid structures subjected to mainshock-aftershock sequences [J]. Soil Dynamics and Earthquake Engineering, 2021, 141, 106532. (SCI: 000607214400004)

    [17] Zheng Li, Jing Luo, Minjuan He*, Guirong He, Yongliang Sun. Analytical prediction of the fire resistance of the glulam bolted connections under coupled moment and shear [J]. Journal of Building Engineering, 2021, 33, 101531. (SCI: 000599645900003)

    [18] Zheng Li, Xiuzhi Zheng, Chun Ni, Duo Tao, Minjuan He*. Reliability-based investigation into the duration of load effect for the design of timber structures based on Chinese standard [J]. Structural Safety, 2020, 87, 102001. (SCI: 000570130500001)

    [19] Xiaofeng Sun, Minjuan He, Zheng Li*. Novel engineered wood and bamboo composites for structural applications: state-of-art of manufacturing technology and mechanical performance evaluation [J]. Construction and Building Materials, 2020, 249, 118751. (SCI: 000535925900051)

    [20] Zheng Li, Xiuzhi Zheng, Minjuan He*, Yongliang Sun, Guirong He. Experimental and analytical investigations into the time-dependent performance in post-tensioned timber beam-column joints under sustained loads and varied environment [J]. Construction and Building Materials, 2020, 251, 118943. (SCI: 000535931400032)

    [21] Xiaofeng Sun, Minjuan He, Zheng Li*. Experimental and analytical lateral performance of posttensioned CLT shear walls and conventional CLT shear walls [J]. Journal of Structural Engineering ASCE, 2020, 146(6), 04020091. (SCI: 000548069000021)

    [22] Minjuan He, Jing Luo, Duo Tao, Zheng Li*, Yongliang Sun, Guirong He. Rotational behavior of bolted glulam beam-to-column connections with knee brace [J]. Engineering Structures, 2020, 207, 110251. (SCI: 000514214200056)

    [23] Minjuan He, Xiaofeng Sun, Zheng Li*, Wei Feng. Bending, shear, and compressive properties of three- and five-layer cross-laminated timber fabricated with black spruce [J]. Journal of Wood Science, 2020, 66, 38. (SCI: 000536864700002)

    [24] Xiaofeng Sun, Minjuan He, Zheng Li*, Frank Lam. Seismic performance of energy-dissipating post-tensioned CLT shear wall structures I: shear wall modeling and design procedure [J]. Soil Dynamics and Earthquake Engineering, 2020, 131, 106022. (SCI: 000527311300009)

    [25] Xiaofeng Sun, Minjuan He, Zheng Li*, Frank Lam. Seismic performance of energy-dissipating post-tensioned CLT shear wall structures II: dynamic analysis and dissipater comparison [J]. Soil Dynamics and Earthquake Engineering, 2020, 130, 105980. (SCI: 000512483200013)

    [26] Suyi Guo, Minjuan He, Zheng Li*, Feng Liang, Fei Chen, Yongliang Sun, Bruno Briseghella, Guirong He. Lateral performance of midply wood shear walls with anchor tie-down system: experimental investigation and numerical simulation [J]. Construction and Building Materials, 2020, 235, 117518. (SCI: 000514758700044)

    [27] Zheng Li, Xijun Wang, Minjuan He*, Wenchen Dong, Hanlin Dong. Seismic performance of timber-steel hybrid structures I: subassembly testing and numerical modeling [J]. Journal of Structural Engineering ASCE, 2019, 144(10), 04019113. (SCI: 000481580900024)

    [28] Zheng Li, Xijun Wang, Minjuan He*, Hanlin Dong. Seismic performance of timber-steel hybrid structures II: calibration of performance objectives and design method [J]. Journal of Structural Engineering ASCE, 2019, 144(10), 04019114. (SCI: 000481580900005)

    [29] Xiaofeng Sun, Minjuan He, Zheng Li*, Frank Lam. Seismic performance assessment of conventional CLT shear wall structures and post-tensioned CLT shear wall structures [J]. Engineering Structures, 2019, 196, 109285. (SCI: 000482518700003)

    [30] Zhan Shu, Zheng Li*, Xiangsheng Yu, Jing Zhang, Minjuan He. Rotational performance of glulam bolted joints: experimental investigation and analytical approach [J]. Construction and Building Materials, 2019, 213, 675-695. (SCI: 000471084500061)

    [31] Zhan Shu, Zheng Li*, Minjuan He, Xiuzhi Zheng, Tingting Wu. Seismic design and performance evaluation of self-centering timber moment resisting frames [J]. Soil Dynamics and Earthquake Engineering, 2019, 119, 346-357. (SCI: 000459364300026)

    [32] Zheng Li*, Minjuan He, Hanlin Dong, Zhan Shu, Xijun Wang. Friction performance assessment of non-asbestos organic (NAO) composite-to-steel interface and polytetrafluoroethylene (PTFE) composite-to-steel interface: experimental evaluation and application in seismic resistant structures [J]. Construction and Building Materials, 2018, 174, 272-283. (SCI: 000433656300026)

    [33] Minjuan He, Qi Luo, Zheng Li*, Hanling Dong, Minghao Li. Seismic performance evaluation of timber-steel hybrid structure through large-scale shaking table tests [J]. Engineering Structures, 2018, 175, 483-500. (SCI: 000448101300037)

    [34] Minjuan He, Xiaofeng Sun, Zheng Li*. Bending and compressive properties of cross-laminated timber (CLT) panels made from Canadian hemlock [J]. Construction and Building Materials, 2018, 185, 175-183. (SCI: 000443665000018)

    [35] Zheng Li*, Minjuan He, Kangli Wang. Hysteretic performance of self-centering glulam beam-to-column connections [J]. Journal of Structural Engineering ASCE, 2018, 144(5), 04018031. (SCI: 000427962600006)

    [36] Jing Zhang, Minjuan He, Zheng Li*. Mechanical performance assessment of bolted glulam joints with local cracks [J]. Journal of Materials in Civil Engineering ASCE, 2018, 30(6), 04018094. (SCI: 000431119300033)

    [37] Jing Zhang, Minjuan He, Zheng Li*. Numerical analysis on tensile performance of bolted glulam joints with initial local cracks [J]. Journal of Wood Science, 2018, 64(4), 364-376. (SCI: 000440078100005)

    [38] Zheng Li*, Minjuan He, Xijun Wang, Minghao Li. Seismic performance assessment of steel frame infilled with prefabricated wood shear walls [J]. Journal of Constructional Steel Research, 2018, 140, 62-73. (SCI: 000419413000006)

    [39] Xiaofeng Sun, Minjuan He, Zheng Li*, Zhan Shu. Performance evaluation of multi-storey cross-laminated timber structures under different earthquake hazard levels [J]. Journal of Wood Science, 2018, 64(1), 23-39. (SCI: 000423572200004)

    [40] Zheng Li, Hanlin Dong, Xijun Wang, Minjuan He*. Experimental and numerical investigations into seismic performance of timber-steel hybrid structure with supplemental dampers [J]. Engineering Structures, 2017, 151, 33-43. (SCI: 000412960600004)

    [41] Minjuan He, Jing Zhang, Zheng Li*. Influence of cracks on the mechanical performance of dowel type glulam bolted joints [J]. Construction and Building Materials, 2017, 153, 445-458. (SCI: 000411847700044)

    [42] Zheng Li*, Minjuan He, Zhong Ma, Kangli Wang, Renle Ma. In-plane behavior of timber-steel hybrid floor diaphragms: experimental testing and numerical simulation [J]. Journal of Structural Engineering ASCE, 2016, 142(12), 04016119. (SCI: 000388614200016)

    [43] Minjuan He, Jing Zhang, Zheng Li*, Maolin Li. Production and mechanical performance of scrimber composite manufactured from poplar wood for structural applications [J]. Journal of Wood Science, 2016, 62(5), 429-440. (SCI: 000386926500006)

    [44] Zheng Li, Minjuan He*, Duo Tao, Maolin Li. Experimental buckling performance of scrimber composite columns under axial compression [J]. Composites Part B: Engineering, 2016, 86, 203-213. (SCI: 000370106000019)

    [45] Minjuan He, Zheng Li*, Frank Lam, Renle Ma, Zhong Ma. Experimental investigation on lateral performance of timber-steel hybrid shear wall systems [J]. Journal of Structural Engineering ASCE, 2014, 140(6), 04014029. (SCI: 000335880700009)

    [46] 李征*, 陈飞, 何敏娟, 何桂荣. 自复位钢木混合剪力墙:抗侧力性能试验研究与自复位机理参数分析[J], 土木工程学报, 2021, 54(8), 14-23. (EI)

    [47] 李征, 吴婷婷, 舒展*, 陈飞, 何敏娟. 自复位胶合木框架结构设计方法与地震易损性分析[J], 建筑结构学报, 2021, 42(3), 211-222. (EI)

    [48] 李征, 罗晶, 何敏娟*, 于祥圣, 梁峰, 舒展, 孙永良. 木梁柱螺栓钢填板节点转动性能理论计算方法[J], 土木工程学报, 2021, 54(3), 98-108, 128. (EI)

    [49] 何敏娟, 王希珺, 李征*. 往复荷载下正交胶合木剪力墙的承载能力与变形模式研究[J], 土木工程学报, 2020, 53(9), 60-67. (EI)

    [50] 李征*, 陈飞, 董翰林, 何敏娟, 李明浩. 往复荷载作用下配置摩擦型阻尼器钢木混合剪力墙抗侧力性能研究[J], 建筑结构学报, 2020, 41(10), 1-10. (EI)


    二、标准规范

    主编, 中国工程建设标准化协会《标准化木结构节点技术规程T/CECS 659》, 中国工程建设标准化协会, 北京, 2021.

    副主编, 中国工程建设标准化协会《工业化木结构构件质量控制标准T/CECS 658》, 中国工程建设标准化协会, 北京, 2021.

    编委, ISO国际标准“Engineered Bamboo Composites”, 2020.

    编委, 国家工程建设强制性规范《木结构通用规范GB 55005》, 中华人民共和国住房和城乡建设部, 北京, 2020.

    编委, 国家标准《装配式木结构建筑技术标准GB/T 51233》, 中华人民共和国住房和城乡建设部, 北京, 2017.

    编委, 上海市地方标准《轻型木结构建筑技术规程DJ/TJ 08-2059》, 上海市住房和城乡建设管理委员会, 上海, 2020.


    三、代表性专著

    李征, 何敏娟. 钢木混合结构设计理论与方法[M]. 北京: 中国建筑工业出版社, 287千字, 2019.

    李征, 何敏娟. 钢木混合结构竖向抗侧力体系抗震性能研究[M]. 上海: 同济大学出版社, 255千字, 2017.

    授权专利

    一种梁柱节点长期受弯加载试验装置. 发明专利, 专利号ZL201910816562.6, 授权日期2022/07/15.

    材料损伤的模型训练和测试方法、装置、设备和存储介质. 发明专利, 专利号ZL201910692909.0, 授权日期2021/01/29.

    一种可摇摆耗能的正交胶合木双板抗震墙. 发明专利, 专利号ZL201710065187.7, 授权日期2019/06/05.

    正交胶合木剪力墙-混凝土核心筒混合抗侧力体系. 发明专利, 专利号ZL201810349307.0, 授权日期2019/05/27.

    一种装配化预应力正交胶合木剪力墙. 发明专利, 专利号ZL201710699702.7, 授权日期2019/04/19.

    一种木框架-耗能支撑抗侧力结构体系. 发明专利, 专利号ZL201610503642.2, 授权日期2018/06/26.

    一种具有震后自复位功能的钢木混合抗震墙. 发明专利, 专利号ZL201610240672.9, 授权日期2017/11/14.

    其他成果

    构架式预应力抗疲劳钢管风电塔塔柱疲劳计算软件V1.0, 2021SR0364074, 计算机软件著作权, 授权日期2021-03-09.

    构架式预应力抗疲劳钢管风电塔塔柱法兰螺栓疲劳计算软件V1.0, 2021SR0295379, 计算机软件著作权, 授权日期2021-02-25.

    钢木混合结构楼层刚度比的敏感性分析与评价软件 V1.0, 2021SR0023385, 计算机软件著作权, 2021-01-06.

    考虑裂缝发展的钢木销轴式连接承载力计算软件V1.0, 2021SR0023383, 计算机软件著作权, 2020-11-12.

    非连续式正交胶合木剪力墙承载力计算软件V1.0, 2021SR0023384, 计算机软件著作权, 2020-10-10.

    钢木销轴式连接基于Johanson屈服模型的承载力计算软件V1.0, 2020SR1888254, 计算机软件著作权, 2020-10-10.

    预应力正交胶合木剪力墙长期性能预测软件V1.0, 2020SR1793643, 计算机软件著作权, 2020-08-01.

    木材荷载持续时间效应系数计算软件V1.0, 2020SR0272442, 计算机软件著作权, 2020-01-10.

    荷载随机模型生成软件V1.0, 2020SR0272667, 计算机软件著作权, 2020-01-06.

    基于机器学习的木材时变损伤预测软件V1.0, 2020SR0025000, 计算机软件著作权, 2019-08-22.

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