结构抗火研究室

    李凌志

   博士、副教授、博导、国家一级注册结构师、国家注册岩土工程师

   招生专业:防灾减灾工程及防护工程、智能建造

   出生年月:1980年5月(于 湖南省平江县)

   电子邮件:lilingzhi@tongji.edu.cn

   办公地址:上海市四平路1239号同济大学土木大楼B407室,200092

   办公电话:021-65986237


个人简介:

       李凌志博士目前为同济大学土木工程学院副教授。2003和2006年于同济大学获学士和硕士学位,2013年于香港大学获博士学位。曾先后任职于上海同济大学建筑设计院、香港AECOM工程顾问有限公司,为国家一级注册结构师、注册岩土工程师。主要研究方向为钢筋混凝土结构的抗火性能、灾后评定及加固技术,形状记忆合金、高性能水泥基材料开发与应用研究。主持和参与国家级和省部级研究项目10余项,参编规范1本,出版专著1部,在国际知名SCI收录期刊发表论文50余篇,EI论文20余篇。在新建建筑结构设计、既有结构检测鉴定及加固改造等领域,已完成社会服务项目100多项。

教育与工作经历:

  • 2018-至今 ,  同济大学,结构防灾减灾工程系,副教授

  • 2014-2018,  同济大学,结构防灾减灾工程系,助理研究员

  • 2013-2014,  香港AECOM工程顾问有限公司,项目工程师

  • 2009-2013,  香港大学,土木工程专业,博士(导师:SH Lo 教授 & RKL Su 教授)

  • 2006-2009,  同济大学建筑设计院同元分院,结构工程师

  • 2003-2006,  同济大学,结构工程专业,硕士(导师:陆洲导教授)

  • 1999-2003,  同济大学,土木工程专业,学士

研究领域:

  1. 钢筋混凝土结构抗火性能

  2. 钢筋混凝土结构加固技术

  3. 既有结构灾后检测与损伤评估

  4. 超高延性水泥基材料(ECC)开发与应用

在研课题:

  1. 超高延性水泥基复合材料(ECC)高温爆裂及损伤机理研究

  2. 低碳轻质ECC-混凝土叠合板抗火机理研究

  3.  超高延性水泥基复合材料(ECC)开发与应用研究

  4. 地震-火灾耦合作用下自复位混凝土框架结构损伤演变机理研究

  5. 火灾后混凝土梁柱节点的锚钢加固机理研究

科研项目:

  1. 国家自然科学基金面上项目(52278519):低碳轻质ECC-混凝土叠合板抗火机理研究,2023-2026,主持

  2. 国家自然科学基金面上项目(51778496):火灾后混凝土梁柱节点的锚钢加固机理研究,2018-2021,主持

  3. 国家自然科学基金面上项目(51778497):地震火灾耦合作用下自复位混凝土框架节点损伤演变机理研究 ,2018-2021,主要参与人

  4. 中央高校基本科研业务费专项资金-学科交叉类:耐高温结构胶热损伤与控制机制研究,2017-2019,主持

  5. 国家自然科学基金青年项目(51408436):高温(火灾)下植筋式后锚固连接的抗剪机理研究,2015-2017,主持

  6. 中央高校基本科研业务费专项资金-学科交叉类:西方建筑结构技术在近代上海的本土化及其持续影响研究,2015-2017,主持

  7. 中央高校基本科研业务费专项资金:钢板受压屈曲特性对梁侧锚固钢板加固混凝土梁的性能影响机理研究,2015-2016,主持

  8. 同济大学“土木工程”高峰学科学科交叉类合作基金:基于碳足迹的混凝土构件可持续性设计方法研究,2017-2019,主持

  9. 国家自然科学基金面上项目(51378397):火灾(高温)后混凝土结构抗剪机理及残余抗剪承载力分析,2014-2017,参与

  10. 香港政府研资局基金项目(HKU7166/08E):梁侧锚固钢板法(BSP)加固混凝土梁的试验与理论研究,2013-2015,参与

  11. 国家自然科学基金面上项目(50578126):火灾后混凝土损伤机理及评估方法的研究,2007-2010,参与

代表性学术成果:

  1. 李凌志. 锚固钢板加固钢筋混凝土梁的试验、仿真及设计. 上海: 同济大学出版社, 2017年5月.

  2. BY Deng, LZ Li, D Tan, MD Uddin, ZW Cai, KQ Yu*. Sustainable and cost-effective ultra-lightweight engineered cementitious composite: Design and material characterization. Cement and Concrete Composites. 2023; 136(2023): 104895.

  3. BY Deng, D Tan, LZ Li*, Z Zhang, ZW Cai, KQ Yu. Flexural behavior of precast ultra-lightweight ECC-concrete composite slab with lattice girders. Engineering Structures. 2023; 279: 115553.

  4. ZG Zhang*, SZ Qian, Q Zhang, LZ Li. Advanced Concrete Technology and Its Structural Applications. Advances in Civil Engineering. 2022; 2022: 9781273.

  5. ZL Wu, LZ Li*, RJ Wu, ZD Lu. Determination of high-temperature creep and post-creep response of structural steels. Journal of Constructional Steel Research. 2022; 193: 107287.

  6. YQ Jia*, C Wang, LZ Li, RF Zhang, ZD Lu. Residual seismic performance of fire-damaged reinforced concrete frame structure with metallic yielding dampers. Journal of Structural Engineering. 2022; 148(4): 04022003.

  7. ZW Cai, X Liu, RJ Wu, LZ Li*, ZD Lu, KQ Yu. Seismic retrofit of large-scale interior RC beam-column-slab joints after standard fire using steel haunch system. Engineering Structures. 2022; 252: 113585.

  8. Q Yu, L Zhang*, PY Tang, LZ Li, et al. Experimental study and in-depth tensile mechanism analysis of grouted sleeve lapping conectors. Latin American Journal of Solids and Structures. 2022; 19(2): e428.

  9. ZL Wu, ZQ Liu, LZ Li*, ZD Lu. Experimental and neural networks analysis on elevated-temperature mechanical properties of structural steels. Materials Today Communications. 2022; 32: 104092.

  10. BY Deng, X Liu, KQ Yu, LZ Li*, Y Chen. Seismic retrofitting of RC joints using steel cage and haunch with bolted steel plate. Structures. 2022; 43(2022): 285-298.

  11. Z Zhang, YT Liu, LZ Li*, ZD Lu. The use of bolted side aluminum alloy plates for flexural capacity of reinforced concrete beams: An experimental investigation. Structures. 2022; 42(2022): 417-433.

  12. Q Yu, L Zhang, SH Bai, BX Fan, ZH Chen, LZ Li*. Experimental study on seismic behavior of precast frame columns with vertical reinforcement spliced with grouted sleeve lapping connectors. Advances in Civil Engineering. 2021; 2021: 1549303.

  13. JH Ye, KQ Yu, JT Yu*, Q Zhang, LZ Li. Designing ductile, tough, nacre-inspired concrete member in metric scale. Cement and Concrete Composites. 2021; 118: 103987.

  14. Y Wang, YQ Jiang, ZH Huang*, LZ Li, et al. Post-fire behaviour of continuous reinforced concrete slabs under different fire conditions. Engineering Structures. 2021; 226(1): 111342.

  15.  Y Liu, H Wu*, Q Yu, Y Li, JN Li, LZ Li. Seismic performance of grille-type steel plate concrete composite walls with application in a super-high-rise building. Applied Sciences-Basel. 2021; 11(16): 7580.

  16. Q Liao, LZ Li, BX Li*, JT Yu. Prediction on the flexural deflection of ultra-high strength rebar reinforced ECC beams at service loads. Structures. 2021; 33(10): 246-258.

  17. X Wang, LZ Li, BY Deng*, Z Zhang, L Jia. Experimental study on seismic behavior of prefabricated RC frame joints with T-shaped columns. Engineering Structures. 2021; 233(4): 111912.

  18.  Y Wang*, GC Wang, Zh Huang, LZ Li, et al. Numerical modelling of in-plane restrained concrete two-way slabs subjected to fire. Fire Safety Journal. 2021; 121(5): 103307.

  19. ZW Cai, X Liu, LZ Li*, ZD Lu, Y Chen. Seismic performance of RC beam-column-slab joints strengthened with steel haunch system. Journal of Building Engineering. 2021; 44(12): 103250.

  20. XY Shang, FZ Xu, JT Yu, LZ Li*, ZD Lu. Study on the interfacial shear performance between engineered cementitious composites and concrete after being subjected to high temperatures. Journal of Building Engineering. 2021; 44(12): 103328.

  21. YQ Jia, C Wang, RF Zhang, LZ Li*, ZD Lu. A double shape memory alloydamper for structural bibration control. International Journal of Structural Stability and Dynamics. 2021; ,21(7): 2150098.

  22. X Liu, T Gernay, LZ Li*, ZD Lu. Seismic performance of post-fire reinforced concrete beam-column joints strengthened with steel haunch system. Engineering Structures. 2021; 234: 111978.

  23. JZ Xiao*, S Zou, Y Yu, ..., LZ Li*. 3D recycled mortar printing: System development, process design, material properties and on-site printing. Journal of Building Engineering. 2020; 32: 101779.

  24. Y Wang*, ZS Chen, YQ Jiang, ..., LZ Li, JC Wu, WX Guo. Residual properties of three-span continuous reinforced concrete slabs subjected to different compartment fires. Engineering Structures. 2020; 208(4):110352.

  25. YQ Jia, ZD Lu, LZ Li*, C Wang. A hybrid steel-shape memory alloy prestressed concrete beam for improved fire resistance. Structural Control & Health Monitoring. 2020; 27(10): e2601.

  26. XY Shang, JT Yu, LZ Li*, ZD Lu. Shear strengthening of fire damaged RC beams with stirrup reinforced engineered cementitious composites. Engineering Structures. 2020; 210: 110263.

  27. Q Yu, JQ Sun, ZY Xu*, LZ Li, Z Zhang, Sl Yu. Mechanical analysis of grouted sleeve lapping connector. Applied Science. 2019; 9: 4867.

  28. X Liu, Y Chen, LZ Li*, MN Su, ZD Lu, KQ Yu. Experimental Study on the Shear Performance of Reinforced Concrete Beams Strengthened with Bolted Side-Plating. Sustainability. 2019; 11(9): 2465.

  29. LZ Li, ZW Cai, KQ Yu*, YX Zhang, Y Ding. Performance-based design of all-grade strain hardening cementitious composites with compressive strengths from 40 MPa to 120 MPa. Cement and Concrete Composites. 2019; 97(4): 202-17.

  30. LZ Li,  Y Bai, KQ Yu*, JT Yu, ZD Lu. Reinforced high-strength engineered cementitious composite (ECC) columns under eccentric compression: Experiment and theoretical model.   Engineering Structures. 2019; 198(11): 109541.

  31. LZ Li,  X Liu,  JT Yu*,  ZD Lu, MN Su, JH Liao, M Xia. Experimental study on seismic performance of post-fire reinforced concrete frames.   Engineering Structures. 2019; 179(1): 161-73.

  32. LZ Li*, CJ Jiang, JT Yu, X Wang. Flexural performance of fire-damaged reinforced concrete beams repaired by bolted side-plating. ACI Structural Journal. 2019; 116(3): 183-193.

  33. LZ Li, X Liu, Y Luo*, MN Su, JH Zhu. Flexural performance of bolted-side-plated RC beams with buckling restraining. ACI Structural Journal. 2019; 116(2): 77-87.

  34. YQ Jia, LZ Li, C Wang, ZD Lu, RF Zhang*. A novel shape memory alloy damping inerter for vibration mitigation. Smart Materials and Structures. 2019; 28(11): 115002.

  35.  XY Shang, JT Yu, LZ Li*, ZD Lu. Strengthening of RC structures by using engineered cementitious composites: A review. Sustainability. 2019, 11(12): 3384.

  36.  Liu X, Y Chen, LZ Li*, MN Su, ZD Lu, KQ Yu. Experimental study on the shear performance of reinforced concrete beams strengthened with bolted side-plating. Sustainability. 2019; 11(9): 2465.

  37.  JT Yu, KK Liu, LZ Li*, YC Wang, KQ Yu, QF Xu. A simplified method to predict the fire resistance of RC Beams strengthened with near-surface mounted CFRP. Composite Structures. 2018;193(6): 1-7.

  38.  KQ Yu, LZ Li, JT Yu*, YC Wang, JH Ye, QF Xu. Direct tensile properties of engineered cementitious composites: a review. Construction and Building Materials, 2018; 165: 346-362.

  39. LZ Li, ZL Wu, JT Yu*, X Wang, JX Zhang, ZD Lu. Numerical simulation of the shear capacity of bolted side-plated RC beams. Engineering Structures. 2018; 171(9): 373-84.

  40. KQ Yu, LZ Li, JT Yu*, JZ Xiao, JH Ye, YC Wang. Feasibility of using ultra-high ductility cementitious composites for concrete structures without steel rebar. Engineering Structures. 2018;170(9): 11-20.

  41.  CJ Jiang, JT Yu, LZ Li*, X Wang, L Wang, JH Liao, Experimental study on the residual shear capacity of fire-damaged reinforced concrete frame beams and cantilevers, Fire Safety Journal. 2018; 100(9): 140-156.

  42.  JT Yu, YC Wang, KL Zhan, LZ Li*, KQ Yu. Using XFEM to model the effect of different axial compression on the hysteretic behaviour of the flexure-dominant RC columns. The Structural Design of Tall and Special Buildings. 2018: e1465

  43.  Liu X, Lu ZD, LZ Li*. The use of bolted side plates for shear strengthening of RC beams: A review. Sustainability. 2018; 10(12): 4658.

  44.  L Wang, RKL Su*, B Cheng, LZ Li, L Wan, ZW Shan. Seismic behavior of preloaded rectangular RC columns strengthened with precambered steel plates under high axial load ratios. Engineering Structures. 2017; 152(12): 683-697.

  45. LZ Li*, ZW Cai, ZD Lu, XL Zhang. Shear performance of bolted side-plated reinforced concrete beams. Engineering Structures. 2017; 144(8): 73-87.

  46.  CJ Jiang, ZD Lu, LZ Li*. Shear performance of fire-damaged reinforced concrete beams repaired by a bolted side-plating technique. Journal of Structural Engineering (ASCE). 2017; 143(5): 04017007.

  47. LZ Li, CJ Jiang*, RKL Su, SH Lo. A piecewise linear transverse shear transfer model for bolted side-plated beams. Structural Engineering Mechanics. 2017; 62(4): 443-453.

  48.  XL Xu, ZD Lu, LZ Li*, CJ Jiang. Numerical study on the local buckling behaviour of bolted steel plates in steel jacketing. Advances in Materials Science and Engineering. 2017; 1352084.

  49.  LF Zhang, WQ Liu, GQ Sun, L Wang*, LZ Li. Two-dimensional modeling of thermo-mechanical responses of rectangular GFRP profiles exposed to fire. Advances in Materials Science and Engineering. 2017; 1705915.

  50. LZ Li, CJ Jiang, LJ Jia, ZD Lu*. Local buckling of bolted steel plates with different stiffener configuration. Engineering Structures. 2016; 119(7): 186-197.

  51. LZ Li*, CJ Jiang, RKL Su, SH Lo. Design of bolted side-plated RC beams with partial interaction. ICE -   Structures and Buildings. 2016; 169(2): 81-95. (SCI, 获香港工程师学会 Finalist - R&D Award of Structural Excellence Award 2017, HKIE)

  52. SH Lo, LZ Li*, RKL Su. Optimization of partial interaction in bolted side-plated reinforced concrete beams. Computers & Structures. 2014; 131(1): 70-80.

  53. KL Su, LZ Li*, SH Lo. Longitudinal partial interaction in bolted side-plated reinforced concrete beams. Advances in Structural Engineering. 2014; 17(7): 921-936.

  54. RKL Su*, LZ Li, SH Lo. Shear transfer in bolted side-plated reinforced concrete beams. Engineering Structures. 2013; 56(11): 1372-1383.

  55.  WY Lam, LZ Li, RKL Su*, HJ Pam. Behaviour of plate anchorage in plate-reinforced composite coupling beams. The Scientific World Journal. 2013; 190430.

  56. LZ Li, SH Lo, RKL Su*. Experimental study of moderately reinforced concrete beams strengthened with bolted-side steel plates. Advances in Structural Engineering. 2013; 16(3): 499-516.

  57. 张智; 蔡自伟*; 李凌志; 俞可权. 再生砂超高性能混凝土力学性能.
    复合材料学报
    . 2022; 39(11): 5158-5169.

  58. 蔡自伟; 邓博予; 张智; 陆洲导; 李凌志, 等. 高强超高延性混凝土梁弯剪性能理论分析与数值模拟.
    同济大学学报(自然科学版)
    .?2022;50(5): 652-666.

  59. 王勇*; 郭文轩; 李凌志; 简晓红; 马帅; 张耕源; 赵行行. 足尺钢框架结构中楼板火灾行为数值分析.
    工程力学. 2021; 38(07): 133-146.

  60. 王勇*; 姜亚强; 张亚军; 李凌志, 等. 混凝土连续板火灾后力学性能试验及理论分析.
    土木工程学报. 2021; 54(03): 41-57.

  61. 王勇*; 姜亚强; 李凌志; 龙帮云. 考虑薄膜效应区域的混凝土双向板承载力计算.
    华中科技大学学报(自然科学版). 2021; 49(1): 93-98.

  62. 王勇, 吴加超, 李凌志*, 张亚军, 等. 不同跨受火混凝土连续双向板火灾试验及数值分析.
    工程力学. 2020; 37(8): 55-72.

  63. 陆洲导, 陈宇, 李凌志*, 刘鑫, 魏锴. 火灾后平面及空间混凝土梁柱节点抗震性能试验研究.
    同济大学学报(自然科学版). 2020; 48(4): 340-348.

  64. 吴振丽; 陆洲导; 李凌志*; 张佳旭. 梁侧锚固钢板法加固混凝土梁的非线性有限元分析.
     同济大学学报(自然科学版). 2019; 47(07): 906-913.

  65. 俞可权;余江滔;李凌志;董方园;王义超;詹凯利可用于无筋建造的超高延性水泥基复合材料力学性能研究.
    建筑结构. 2019; 49(2): 29-35.

  66. 刘鑫, 陆洲导, 蔡自伟, 李凌志*. 梁侧锚钢加固钢筋混凝土梁火灾后受剪性能研究.
    浙江大学学报(工学版). 2018; 52(5): 853-863.

  67. 蔡自伟, 陆洲导, 李凌志*, 苏磊. 梁侧锚固钢板加固混凝土梁抗剪性能试验.
    浙江大学学报(工学版). 2018; 52(1): 1-7.

  68. 姜常玖, 陆洲导, 李凌志*, 苏磊. 混凝梁侧锚固钢板加固火后混凝土梁受弯试验研究.
    同济大学学报(自然科学版). 2017; 45(12): 1755-1764.

  69. 蔡自伟, 陆洲导, 李凌志*. 基于ATENA的梁侧锚固钢板加固梁中纵横向滑移数值模拟.
    中南大学学报(自然科学版). 2017; 48(12): 3316-3327.

  70. 姜常玖, 陆洲导, 李凌志*, 刘波洲. 梁侧锚固钢板加固高温后混凝土梁受剪性能试验研究.
    建筑结构学报. 2017; 38(3): 67-75.

  71. 陆洲导, 徐晓亮, 杭启兵, 李凌志*, 苏磊. 混凝土梁侧锚固钢板受压屈曲特性的数值模拟.
    同济大学学报(自然科学版). 2017; 45(1): 1-8.(领跑者5000–中国精品期刊顶尖论文)

  72. 李凌志, 张晓亮, 姜常玖, 陆洲导*. 梁侧锚固钢板法中钢板受压屈曲特性试验研究.
    华中科技大学学报(自然科学版). 2016; 44(10): 41-46.

  73. 李凌志*, 姜常玖, 陆洲导, 苏启亮. 梁侧锚固钢板加固混凝土梁的横向剪力传递模型.
    湖南大学学报(自然科学版). 2016; 43(3): 113-119.

社会服务项目:

  1. 香港国际机场T2航站楼重建工程 (HKIA Terminal 2 Expansion),现有T2上部结构拆除重建,并在四周扩建。负责现有下部地铁隧道的加固改造及扩建部分地下结构的设计。(2013年9月)

  2. 香港港铁尖沙咀站A1出口重建工程 (MTR TST Station Entrance A1 Enhancement Works),地铁站出口拆除后扩建,负责该A1旧出口拆除及新出口的结构设计。(2013年8月)

  3. 澳门善丰花园大厦加固工程,高层混凝土框架结构,二楼数根框架柱严重损坏压溃,参与该楼结构顶升及加固修复的方案设计。(2012年10月)

  4. 无锡电视台老塔结构加固工程,20米高钢管塔架结构,负责该发射塔的结构检测、计算及加固方案的提供。(2005年8月)

  5. 温州发电厂室外配电构架加固工程,3层装配式框架结构,负责该室外构架的结构检测、计算及加固方案的提供。(2005年4月)

  6. 中国联通上海分公司文治路办公楼改建工程,4层框架结构增设夹层,负责该结构的检测、计算、改建及加固方案的提供和图纸绘制。(2004年12月)

  7. 上海三百集团办公楼改建工程,4层内框外砖混结构改造为钢筋混凝土框架结构,参与该项目的计算及改造方案的提供。(2004年10月)

  8. 马拉维国际会议中心及配套宾馆,由两栋建筑组成,负责其中一栋12层框架剪力墙结构宾馆的结构设计。(2009年4月)

  9. 长沙怡海星城,由一系列高层住宅及配套设施组成,负责其中4栋18~22层的剪力墙结构住宅的结构设计。(2008年12月)

  10. 上海阳光欧洲城,由一系列西班牙建筑风格的独栋小别墅组成,负责其中一栋6层框架结构宾馆的结构设计。(2008年10月)

  11. 山东郓城监狱武警楼,由一系列建筑物组成,负责其中一栋4层框架结构狱警宿舍的结构设计。(2008年9月)

  12. 上海三林体育中心冰球馆及室内游泳馆,负责该5层框架结构体育场的结构设计。(2008年8月)

  13. 南京硅谷天华私家庄园,由一系列高层住宅及其配套设施组成,负责其中几栋20多层剪力墙结构住宅的结构设计。(2008年5月)

  14. 漳州体育场,负责该带钢网架的4层框架结构体育场的初步设计。(2008年3月)

  15.       ……


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