张小月,女,博士,副教授,博士生导师,重庆英才,重庆大学低碳工程结构研究所副所长,中国建筑业协会钢木建筑分会副秘书长,2017年博士毕业于加拿大英属格伦比亚大学,而后任职于美国 KATERRA Technology Ltd. 和 加拿大Read Jones Christoffersen RJC 结构设计事务所,担任结构工程师和模型设计师,2020年从加拿大以引进人才方式入职重庆大学土木工程学院,主要从事钢结构、现代木结构,钢木混合结构,智能建造方法,3D打印混凝土及结构抗震与可靠度研究。主持加拿大Mitacs Elevate和 Mitacs Accelerate 项目,国家自然基金面上项目,国家自然基金青年项目和国家自然基金博士后面上项目,十四五国家重点研发项目子课题,重庆市面上项目,重庆市人社局项目留学人员回国创业创新支持计划和国际科技合作创新基金项目,参与国家自然科学基金重点项目,发表论文30余篇,参编及修订国家级规范3部,申请专利4项,参与了北美,欧洲及国内数十个现代木结构项目的工程结构设计。
教育背景:
2005.09 - 2009.07 重庆大学 土木工程 工学学士
2009.09 - 2012.07 同济大学 土木工程/桥梁 工学硕士
2012.09 - 2017.05 University of British Columbia Timber structure 博士
工作经历:
2016.01 - 2016.05 University of British Columbia 研究生课程助教
2016.12 - 2019.05 美国 Katerra Technology lnc. 结构设计事务所 结构工程师
2017.09 - 2019.10 University of North British Columbia 在职博士后
2019.12– 2020.06 加拿大Read Jones Christoffersen 结构设计事务所 结构工程师
2020.09 - 2023.09 重庆大学 在职博士后(合作导师:周绪红院士)
2020.09-今 重庆大学 副教授
研究方向
[1] 钢结构、 钢木组合结构、胶合木-混凝土组合结构
[2] 智能建造方法,3D打印混凝土设计与建造
[3] 现代木结构体系,新型节点及可恢复结构体系
[4] 结构抗震及可靠度分析
主讲课程
[1] 钢结构基本原理(全英文课程)
[2] 高等钢结构理论(全英文课程)
[3] 房屋建筑学
学术兼职
[1] 中国建筑业协会钢木建筑分会副秘书长
[2] 中国钢结构协会结构稳定与疲劳分会青年理事
[3] 《Sustainable Structures》青年编委
[4] 中国工程建设标准化协会木材与复合材结构专业委员会委员
[5] 固废分会第二届理事会混凝土3D打印学术委员会委员
[6] 中国工程图学学会会员
[7] 美国土木工程师学会会员 (Member of American Society of Civil Engineers, ASCE)
[8] 加拿大不列颠哥伦比亚省工程师和地质科学家协会会员及培训工程师(Member and E.I.T. in Engineers and Geoscientists British Columbia, EGBC)
[9] 加拿大安大略省专业工程师协会会员及培训工程师(Member and E.I.T. in Professional Engineers Ontario, PEO)
[10] 期刊审稿人:
Construction and Building Material
Journal of Structural Engineering ASCE
Engineering Structures
Canadian Journal of Civil Engineering
Sustainable Structure
Buildings
主要成果
科研项目:
[1]国家自然科学基金面上项目:多层胶合木框架-冷弯轻钢剪力墙结构受力性能与设计方法研究,2025-2028, Grant No.52478135,课题负责人(在研);
[2]十四五重点研发项目:重大交通工程混凝土高性能制备与应用基础,子课题:3D打印混凝土高效装配化构件传力机制与智能建造方法,2022-2026, Grant No.2021YFF0500804,子课题负责人(在研);
[3]国家自然科学基金青年科学基金项目:多高层正交胶合木剪力墙结构抗拔件的拉剪耦合受力机理与设计方法,2021-2024,Grant No.52108192,项目负责人(在研);
[4]中国博士后科学基金面上项目:多高层正交胶合木剪力墙结构抗拔件的受力机理与设计方法,2022-2024,Grant No.2022M710528,课题负责人(在研);
[5]重庆市技术创新与应用发展专项重点项目:装配式木结构成套技术研究与应用,2022-2025, Grant No.CSTB2022TIAD-KPX0138,课题负责人(在研);
[6] 重庆市科技局面上项目:多层胶合木框架-冷弯轻钢剪力墙结构的抗震性能与设计方法研究,2024-2027,Grant No.CSTB2024NSCQ-MSX0572,课题负责人(在研);
[7] 国家重点实验室开放基金:多高层重木结构中钢胶木复合连接件的受力机理与设计方法研究,2022-2024,Grant No.MEKL202204,课题负责人(在研);
[8]重庆市人社局项目留学人员回国创业创新支持计划:基于“碳中和”理念的多高层正交胶合木建筑抗拔件的设计方法研究,2022-2024,Grant No.cx2021085,项目负责人(在研);
[9]国家级低碳绿色建筑与人居环境营造国际合作基地“国际科技合作创新基金”项目:Structural performance and environmental benefit of tall concretetimber-hybrid structures in China,2021-2023,Grant No. SuDBE2022-06,项目负责人(课题已结题);
[10]加拿大Mitacs, Mitacs Elevate项目, IT09432, Development of Design Guidance for Tall Wood-based Hybrid Buildings, 2017-09至2019-06, 11万加币, 项目负责人(课题已结题);
[11] 加拿大Mitacs, Mitacs Accelerate项目, IT05768, Investigation of High-Capacity-Seismic-Hold Downs for Timber-based Hybrid Structures, 2015-01至2018-01, 9万加币, 项目负责人(课题已结题);
[12] 加拿大Centennial College 6层CLT胶合木剪力墙结构设计, 加拿大Read Jones Christoffersen设计事务所设计项目, 2020, 项目骨干(设计项目已完成);
[13] 贵州10层胶合木商务酒店设计,Design of 10-storey Timber-Concrete Hybrid Hotel, 美国KATERRA设计事务所设计项目, 2017, 项目骨干(设计项目已完成);
[14] 美国谷歌办公楼CLT -混凝土混合结构设计, Structural Design of Google Office (timber -concrete hybrid structure), 美国KATERRA设计事务所设计项目, 2019, 参研(设计项目已完成);
[15] 预制胶合木穹顶结构设计研究, Design of Glulam Domespace House,美国KATERRA设计事务所设计项目, 2018, 参研(设计项目已完成);
[16] 重型木剪力墙板抗风设计, Wind Resistance of Massive Timber Panel,美国KATERRA设计项目设计事务所, 2018, 参研(设计项目已完成);
[17] 华盛顿的7层CLT纯木结构研究,Design of 7-storey CLT Building Located in 901 Florida Ave, Washington DC,美国KATERRA设计事务所设计项目, 2017, 参研(设计项目已完成);
[18] CLT剪力墙设计高度研究,Design Height Limitation of the CLT shear wall, 美国KATERRA设计事务所研究项目, 2017, 参研(设计项目已完成)。
代表性论文:
[1] Zhang, X., Niu, B., Cheng, A., Bayat, M., & Tannert, T. (2024). Out-of-plane cross-angle bending stiffness of cross-laminated timber. Engineering Structures, 319, 118791.
[2] Zhang, X., Zheng, Z., Di, J., Cao, L., & Qin, F. (2024). Experimental and numerical study on behavior of channel-shaped GFRP perforated rib shear connectors. Engineering Structures, 306, 117772.
[3] Zhang, X., Huang, W., Khajehpour, M., Asgari, M., & Tannert, T. (2023). Seismic Performance and LCA Comparison between Concrete and Timber–Concrete Hybrid Buildings. Buildings, 13(7), 1714.
[4] Liu, D., Zhang, Z., Zhang, X., and Chen, Z. (2023). 3D printing concrete structures: State of the art, challenges, and opportunities. Construction and Building Materials, 405, 133364.
[5] Wang, H., Li, J., Li, P., Zhong, L., Zhang, X., & Li, C. (2023). Study on Flexural Performance of Aluminum Alloy Gusset Joints Subjected to Bending Moment and Shear Force. Materials, 16(7), 2920.
[6] 张小月., 黄婉茹., TANNERT Thomas., 石宇., 周绪红., 陈朝晖. (2023). 多高层正交胶合木剪力墙-钢梁组合结构体系抗震性能研究. 建筑结构学报,
[7] Zhang, X., Xuan, L., Huang, W., Yuan, L., and Li, P. (2022). Structural Design and Analysis for a Timber-Concrete Hybrid Building. Advanced Concretes and Their Structural Applications.
[8] Chen, Z., Xing, J., Luo, Q., and Zhang, X. (2022). Numerical Analysis of Structural Performance of Concrete-GFRP Composite I-Beam. Advanced Concretes and Their Structural Applications.
[9] Zhang, X., Pan, Y. and Tannert, T. (2021). The influence of connection stiffness on the dynamic properties and seismic performance of tall cross-laminated timber buildings. Engineering Structures, 238, 112261.
[10] Zhang X., Shahnewaz M. and Tannert T. (2018). Seismic Reliability Analyses of Timber-Steel-Hybrid System. Engineering Structures.167:629-638, https://doi.org/10.1016/j.engstruct.2018.04.051.
[11] Zhang X., Tannert T. and Popovski M. (2018). High-capacity hold-down for mass-timber buildings. Construction and Building Materials. 164:688-703.
[12] Zhang X., Azim R., Bhat P., Popovski M. and Tannert T. (2017). Seismic performance of embedded steel beam connection in cross-laminated timber panels for tall-wood hybrid system. Canadian Journal of Civil Engineering. 44(8): 611-618, https://doi.org/10.1139/cjce-2016-0386.
[13] Zhang X., Fairhurst M. and Tannert T. (2015). Ductility Estimation for a Novel Timber-Steel Hybrid System. ASCE Journal of Structural Engineering. 10.1061/ (ASCE) ST.1943-541X.0001296, E4015001.
[14] 李小年, 张小月, 马如进, 陈艾荣 (2013). 自锚式悬索桥合理成桥状态的实用计算方法[J]. 公路交通科技, 2013(06).
[15] 张小月,陈艾荣,吴怀义等 (2012).国内外高墩桥梁桥墩造型应用研究.上海公路, 2012.No.1 (44-48).
[16] Huang W., Li P., and Zhang X. (2023). Experimental Investigation on Shear Connectors for Glulam-UHPC composite Structures. The 2nd International Conference on Green Building, Civil Engineering and Smart City, Guiyang, China.
[17] Zhang X., Huang W., Khajehpour M., Asgari M., and Tannert T. (2023). Structural And Life Cycle Analyses for A Timber-Concrete Hybrid Building. World Conference on Timber Engineering, Oslo, Norway.
[18] Zhang X., Xuan L., Li W., Tannert T. (2023). Experimental Investigations on CLT Panels With Openings. World Conference on Timber Engineering, Oslo, Norway.
[19] Zhang X. and Zhou X.(2023) Development and Prospects of Modern Timber Structures. The 1st UOE-LEEDS-CQU Structural Engineering Academic Seminar, Chongqing, China. Keynote presentation.
[20] Zhang, X., Pan, Y. and Tannert, T. (2022). The influence of connection stiffness on the seismic performance of CLT buildings. The 8th Forum on New Developments in Timber and Bamboo Structures, Shanghai, China. Keynote presentation.
[21] Zhang X., and Tannert T. (2021).Seismic Design for Timber-Steel Hybrid Highrise building .The 11th International Conference on Sustainable Development in the Building and Environment, Chongqing, China.
[22] Zhang X., Popovski M. and Tannert T. (2017). Experimental Test on Novel Seismic Hold-Downs for Timber Structures. 16th World Conference on Earthquake Engineering. Chile.
[23] Bita M.H., Zhang X. and Tannert T. (2017). Novel Resilient Connection for Multi-storey Timber Buildings. 1st International Conference on Timber Structures and Engineering. New Forest, UK.
[24] Zhang X., Popovski M. and Tannert T. (2016). High-Capacity Hold-Down for Tall Timber Buildings. WCTE 2016, World Conference for Timber Engineering. Vienna, Austria.
[25] Tannert T., Schneider J. and Zhang X. (2016). Earthquake Anchorages for Multi-storey mass timber Buildings - Canadian Design Philosophy, Trends and Experimental Investigations. International Woodworking Forum IHF 2016. Garmisch-Partenkirchen, Germany. (In German).
[26] Zhang X., Fairhurst M., Kaushik K. and Tannert T. (2015). Ductility for a Novel Timber-Steel-Hybrid System with Consideration of Uncertainty. ASCE Structure Congress, Portland, US.
[27] Zhang X., Popovski M. and Tannert T. (2015) “Seismic Design of Hold-Downs for Timber Based Hybrid Highrise Structures.”, the 5th Tongji-UBC Symposium on Earthquake Engineering, Shanghai, China.
[28] Zhang X., Fairhurst M. and Tannert T. (2015). Seismic Reliability Analyses of Timber-Steel-Hybrid System. 12th International Conference on Applications of Statistics and Probability in Civil Engineering, Vancouver, CA.
[29] Schneider J., Zhang X., Tannert T., Popovski M., Karacabeyli E., Stiemer S.F. and Tesfamariam S. (2014). Novel Steel Tube Connection for Hybrid System. WCTE 2014, World Conference for Timber Engineering. Quebec, CA
[30] Fairhurst M., Zhang X. and Tannert T. (2014). Nonlinear Dynamic Analysis of a Novel Timber-Steel Hybrid System. WCTE 2014, World Conference on Timber Engineering, Quebec, CA.
专利:
[1] 何子齐, 钟紫勤, 周绪红, 张小月. 一种用于原竹立柱的地脚锚栓补强结构[P].CN202122065852.7.
[2] 张小月, 周绪红, Thomas Tannert. 一种具有高强耗能特点的钢-胶-木复合耗能连接结构[P]. CN2022213660777.
[3] 张小月;陈朝晖;张志刚;廖旻懋;李浪花.一种耗能型3D打印混凝土组合梁[P]. CN218758275 U.
[4] 张小月;程睿;石宇;熊刚;彭舒;周绪红. 一种胶合木结构子母卡槽式梁柱节点[P] .CN220814254.
获奖情况
[1] 第十六届“高教杯”全国大学生先进成图技术与产品信息建模创新大赛 建筑类 优秀指导教师 一等奖
[2] 中国钢结构协会高等学校钢结构创新竞赛2024"津西杯”新民居设计 一等奖
[3] 中国钢结构协会科学技术进步奖 二等奖
研究生培养
研究团队主要关注实际工程中的具体难点问题,挖掘科学问题并提出解决方案
研究团队有稳定的项目来源,与国内外主要企事业单位有长期合作关系(西南设计院、中加低碳、昆仑绿建、沭阳牡丹木业等)
研究团队与海外高校及企业有深度合作,海外合作交流机会多(加拿大英属哥伦比亚大学,多伦多大学,北不列颠哥伦比亚大学,英国纽卡斯特大学,加拿大RJC设计院,奥地利研究促进公司FFG 等)
为学生提供充足的经费支持及全面的锻炼机会,团队管理制度灵活,研究生期间一般安排参与完成1项纵向课题研究或横向工程问题。
每年招收学生2~3名,欢迎有相关兴趣的学生加入团队。
联系方式
电子邮箱:xiaoyuezhang@cqu.edu.cn
通讯地址:重庆市沙坪坝区重庆大学B区建工馆324
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