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胡楠

教授  城市运维管理系

所属单位: 土木与交通学院

办公电话:

电子邮箱: nanhu026@scut.edu.cn

办公地址:

研究方向: 新材料结构、数字化建造

个人简介

胡楠,华南理工大学教授、土木与交通学院副院长,国家海外高层次青年人才项目入选者(2019)。曾先后在美国密歇根州立大学、达特茅斯学院、俄亥俄州立大学求学、任教,于20204月回国,进入华南理工大学,先后担任智能建造专业负责人、土木工程系主任、学校教务处副处长(挂职)、广东省现代土木工程技术重点实验室副主任、学院副院长(本科教学与国际交流)等职务。主要致力于新材料结构、数字化建造和交叉力学等领域的科研教学工作。目前主要研究方向为(1)超构复合材料极端防护与极端功能; (2) 既有建筑数智损伤评估与快速修复; (3) 固废资源化利用与可持续工程建造

科学研究方面,主持和参与包括美国国家自然科学基金NSF、国立卫生部NIH等10余项研究,在PNAS、Advanced Materials、Advanced Functional Materials、Nature CommunicationsMatterSCI期刊发表论文90余篇,总引用量近3000余次,授权中国发明专利30余件,参与获批广东省科技进步奖二等奖、广东省土木建筑学会科学技术奖一等奖、中国公路学会科技进步二等奖等;担任中国土木工程学会人工智能技术与产业融合分会常务理事、先进工程材料分会、太空工程分会理事、美国土木工程师学会模块化建造、建构化材料等五个分委会委员,是Science合作子刊《Research》等期刊的青年编委,以及包括Nature在内70余个SCI期刊审稿人。

教书育人方面,长期在一线开展教学和管理,年均为本科生及研究生授课超200学时,持续打造科教与产教融合型深度学习课堂,突出跨学科融合与在地国际化建设。担任教育部土木工程教学指导分委员会委员、中国土木工程学会教育工作委员会委员,广东省土木建筑学会教育工作委员会主任委员、广东省高等教育学会教育教学专业委员会第二届理事会理事等,主持和参与校级以上教改项目超20项,作为第一指导教师在中国研究生创新大赛等各类省级以上学科竞赛中获奖近30项,主要教研教改成果获华南理工大学教学新秀奖和教学创新大赛特等奖,相关科普活动获得Nature专栏报道。指导多项优秀本科毕业设计,多名研究生国家奖学金获得者。曾获国家本科教学成果二等奖1项、广东省本科教学成果二等奖3项(牵头1项)、校级本科教学成果奖3项。

教育经历

2003.09 – 2007.06 湖南大学,土木工程学士,桥梁工程方向

2007.09 – 2010.05 中南大学,土木工程硕士,桥梁与隧道工程方向

2011.08 – 2014.05 美国密歇根州立大学,工程力学硕士,固体力学方向

2011.08 – 2015.08 美国密歇根州立大学,土木工程博士,结构工程与力学方向

2015.08 – 2017.06 美国达特茅斯学院(常春藤八校之一),博士后研究员,固体力学与生物力学方向

招生信息

  • 学术型博导,土木与交通学院,081400,土木工程,结构工程

  • 学术型博导,土木与交通学院,081400,土木工程,桥梁与隧道工程

  • 学术型硕导,土木与交通学院,081400,土木工程

  • 专业学位硕导,土木与交通学院,085900,土木水利,建筑与土木工程


工作经历
  • 2020年4月~至今,华南理工大学土木工程系
  • 2017年9月~2020年1月,美国俄亥俄州立大学土木、环境与大地测绘系
社会、学会及学术兼职

美国土木工程协会ASCE结构工程分部(SEI)结构仿生(Bio-inspired Structure)分委会委员

模块化装配式建筑分委会委员

工程力学分部(EMI)结构稳定(Stability)分委会委员

建构化材料(Architected Materials)分委会委员

中国土木工程学会教育工作委员会委员

中国土木工程学会先进工程材料分会理事

中国土木工程学会太空分会理事

中国硅酸盐学会建筑固废学术委员会委员

广东省铁道学会第七届理事会理事

广东省高等教育学会教育教学专业委员会第二届理事会理事

Science合作子刊《Research》青年编委

Nature旗下子刊《Scientific Reports》青年编委

清华大学主办的《Journal of Intelligent Construction》青年编委

《Frontier in Mechanics of Materials》评阅编委

《Engineering Structures》增材制造结构专题首席客座编辑

华南理工大学广东省现代土木工程技术重点实验室副主任

数字设计与智能建造未来实验室负责人

Science, Nature等70个国际权威SCI期刊特约审稿人。

美国科学促进会(AAAS)、美国土木工程师协会(ASCE)、美国机械工程师协会(ASME)

世界桥梁工程师协会(IABSS)、世界壳结构工程师协会(IASS)、世界仿生工程协会(IEBE)等多个学术组织的会员

研究领域

结构,承载着从超高层建筑到微细诊疗器械的物理世界。在粤港澳大湾区迈向世界级城市群的进程中,土木工程不再仅是“力与土”的对话,而是材料、信息、装备、能源等多学科知识的融合场。本课题组秉持“材料-结构-功能”一体化设计理念,以超构材料、数字化建造与低碳化路径为核心抓手,探索结构在多尺度下的几何可重构、性能可调节与环境自适应机制。我们立足广州、服务湾区,面向世界,致力于为城市更新、交通基础设施韧性提升及可持续建造提供原创理论与工程解决方案。当前主要研究方向包括:

研究方向一:超构复合材料极端防护与多功能融合设计 

面向桥梁、海工、交通枢纽等基础设施在冲击、爆炸、疲劳及多场耦合极端环境下的韧性需求,本方向融合超构材料的几何拓扑设计与功能基元序构,系统研究超构增强水泥基复合材料及其复合体系的力-电-热-流多场响应行为。团队建立了从细观点阵到宏观构件的跨尺度设计理论,揭示了材料结构在极端荷载下的能量耗散、应力波调控及失效链阻断机理。近期进一步将超构理念拓展至固-液耦合与软硬复合体系,探索微流发电、自感知防护取及人体冲击防护等新兴功能场景。正在开展的研究包括:(1) 抗冲击、抗爆的超构增强轻量化结构;(2) 基于超构材料的耗能减振装置;(3) 面向极端环境的多功能超构复合材料结构一体化设计方法。 

研究方向二:既有建筑数智损伤评估与快速修复 

面向广州及大湾区大规模“城市更新”与既有建筑功能提升的重大需求,本方向构建了“天-空-地”一体化的数智感知体系,融合无人机巡检、计算机视觉、三维激光扫描与数字孪生技术,实现对结构表观损伤、内部缺陷及力学性能退化的快速、非接触、高精度识别。在此基础上,团队发展基于异形复杂构型的的增材智能修复方法,利用机器人路径规划与工艺参数自优化算法,实现古建筑局部构件、异形节点及受损区域的精准、快速、低干预修复。本方向突出“结构诊治一体化”理念,推动从损伤筛查、数字建模到自适应修复的全链条技术闭环,为城市存量建筑的延寿与功能提升提供可落地解决方案。 

研究方向三:固废资源化利用与可持续工程建造 

依托我校在再生块体混凝土领域的长期积累,本方向聚焦建筑与工业固废在交通基础设施领域的高值化与规模化应用,重点推动再生块体、工程渣土等固废基材料在路桥工程中的力学设计、耐久性评价与全生命周期碳核算。同时,结合模块化建造理念,研发可拆装、可重组、可循环的装配式结构体系,探索从材料再生、构件预制到现场快速拼装的可持续建造模式。正在开展的工作包括:(1) 再生混凝土在高等级路面及桥梁结构中的应用关键技术;(2) 模块化建筑的数智设计与性能评估;(3) 面向城市群尺度的固废资源化利用与整合。


课题组主页:https://www.x-mol.com/groups/vsl 

B站平台:https://space.bilibili.com/2040235889 

ORCID: http://orcid.org/0000-0003-3536-8414 

ResearchGate: https://www.researchgate.net/profile/Nan_Hu11 

Google Scholar: http://scholar.google.com/citations?user=zCPL0F0AAAAJ&hl=en


课题组长期招收具有土木、力学、材料及机械等相关专业博士毕业生加盟课题组开展博士后科研工作。优先考虑具有计算力学、固体力学、计算力学、机器学习、智能建造、智能器件、拓扑优化、3D打印和新功能材料等研究背景的申请人。若有意向,请发简历及两篇代表性成果至胡教授邮箱nanhu026@scut.edu.cn取得联系。

开授课程

本科生

理论力学(全英):20春

材料力学(全英):20秋、21秋、22秋、23秋、24秋、25秋

结构艺术:22春

材料建构化设计与建造:21春、23秋、24秋、25秋

工程结构智能建造:22秋、23秋、24秋、25春

土木工程概论:23秋、24秋、25秋

结构智能化设计工作坊:23秋、24秋、25秋

3D打印设计工作坊:23秋、24秋、25秋

学术与工程创新前沿:25秋

建造机器人与装备实践:25春、26春

新材料结构与海洋发电探秘:25秋


研究生

现代桥梁设计原理:21春、22春

3D打印材料与结构:23春、24春、25春、26春

FRP Composite in Civil and Marine Engineering: 24秋

数字技术与跨领域研究创新:26春

科研项目

2025.01 - 2025.12 工程结构增材精准修复与全流程数智评估方法,中央高校基本科研业务费创新团队建设项目

2024.01 - 2026.12 亚热带建筑与城市科学全国重点实验室自主课题(重点项目),面向近海工程结构物韧性提升的超材料设计理论与能量耗散机理研究

2024.01 - 2026.12 广东省自然科学基金面上项目,面向极端荷载工况的建构化复合材料结构失效机理与设计理论

2022.06 - 2024.05 广东省人工智能与数字经济广东实验室(广州),“基于新一代人工智能的城市多灾害环境与基础设施时空信息集成方法研究”

2021.01 - 2023.12 国家自然科学基金委员会, 青年科学基金项目,“基于结构化材料调控耗能属性的可适应结构作用机理和设计方法研究”

2020.04 - 2023.04 海外高层次人才引进计划青年项目

2018.11 - 2019.11 俄亥俄州大应用植物科学中心资助项目,“基于玉米秸秆的可持续复合材料全寿命设计”

2018.09 - 2020.09 俄亥俄州大应用材料科学中心资助项目,“可渗透混凝土在水上浮岛栖息地开发应用”

2016.12 - 2017.09 Facebook,“剪切式柔性压电薄膜在双向触觉通讯系统中的应用”

2016.09 - 2020.09 美国国立卫生研究院(National Institutes of Health), 

“3D柔性压电薄膜在植入式起搏器产能中的应用(Implantable Cardiac Power Generation Using Flexible 3D Porous Thin   Films)”

2015.08 - 2019.07 美国自然科学基金, “基于柱壳结构屈曲的智能机械系统

(Tailoring of the Elastic Postbucking Response of Cylindrical Shells: A   Route for Exploiting Instabilities in Mechanical Systems)”

2014.08 - 2019.07 美国自然科学基金, 1408506,

“用于能量采集设备的机械等效响应放大器和频率调制器(Mechanically-equivalent Response Amplifiers and Frequency Modulators   for Energy-harvesting Devices)”

2009.08 - 2013.08 美国密歇根州交通部, 2009-0746/Z2,

“混凝土桥面板寿命预测模型的开发(Probabilistic Modeling of Concrete Bridge Decks Deterioration due to   Chloride-induced Corrosion)”


论文
  • Kang, Lan;Du, Wenjie;Hu, Nan;Liu, Xinpei;Sun, Wei;Yuan, Lijun,Effects of heat-affected zone on cyclic behaviour of laser-cladding-produced stainless-clad bimetallic steels,Thin-Walled Structures,2026
  • Li, Jiachen;Feng, Yuliang;Chen, Shufan;Chen, Ruizhi;Ma, Ruiqi;Xiong, Lu;Hu, Nan,On-demand curvilinear extrusion-based robotic arm printing enabled by tunable surfaces of elastic gridshell base,Additive Manufacturing,2025
  • Zhu, Lu;Lin, Yangsheng;Ma, Ruiqi;Li, Jiachen;Yin, Meishan;Li, Yunquan;Zhao, Dongdong;Hu, Nan*,Tailoring cell geometry and assembly of modular origami tube for programmable biaxial response under static and impact loads,Extreme Mechanics Letters,2025
  • 张园;杜涛;宋丹青;林福生;胡楠;虞将苗,废塑料干法改性对沥青混合料抗裂性能影响及其机理分析,材料导报,2025
  • Liang, Chuanwei;Liu, Jiayang;Lin, Shikun;Gao, Yunlong;Zou, Xun;Wang, Wenqi;Chen, Fangyu;Hu, Nan;Li, Yunquan;Zhang, Yuan-Fang,3D-Printed Shape-Memory Polymer-Based Variable-Stiffness Origami Actuator for Multimodal Soft Continuum Robots,ACS Applied Materials & Interfaces,2025
  • Li, Binbin;He, Hucheng;Xuan, Kai;Fu, Juan;Zhang, Jian;Yao, Xianhua;Hu, Nan,Sustainable designs and multifunctional fusion of contemporary power plant buildings: case studies in Southern China,Journal of Asian Architecture and Building Engineering,2025
  • Gan, Zhantu;Mao, Weining;He, Qianpeng;Tang, Hao;Wang, Yifan;Hu, Nan,Failure mechanism and tunable mechanical responses of structured fabrics,Composites Communications,2025
  • Xie, Binglin;Huang, Huansheng;Jigu, Xuemei;Huang, Liangyu;Cai, Jinchi;Zhang, Haiyan;Hu, Nan,Static and impact response of meter-scale architected lattice-reinforced cementitious composite beams,Engineering Structures,2025
  • Zhang, Qi;Li, Xiaozhong;Lin, Chusen;Jin, Peng;He, Qi;Hu, Nan;Zhou, Binzhen,Experimental study on the combined effects of geometric asymmetry and partial reflection wall on the power performance of a wave energy converter,Energy,2025
  • 项聪;王怡;罗家祥;胡楠,高深知识视域下大学深度学习课堂构建探索与实践,高等工程教育研究,2025
  • Zhao, Haiyang;Zha, Qian;Ma, Ruiqi;Ma, Wenqian;Zhang, Ao;Zhang, Yuan;Hu, Nan,Exploiting meta-aggregate in functional composites for a balanced permeability and strength trade-off,Construction and Building Materials,2025
  • Yao, Xianhua;Liu, Ke;Dong, Qing;Li, Xuanyou;Ma, Chunfeng;Hu, Nan,Tunable and recoverable energy absorption of foam-embedded architected cellular composite material at multiple strain rates,Composite Structures,2024
  • Chen, Baixi;Mao, Weining;Lin, Yangsheng;Ma, Wenqian;Hu, Nan*,Manufacturing-induced stochastic constitutive behaviors of additive manufactured specimens: testing, data-driven modeling, and optimization,Rapid Prototyping Journal,2024
  • Yao, Xianhua;Dong, Qing;Li, Xuanyou;Hu, Nan*,Design and Characterization of Architected Cellular Composite Material Embedded with Strain Rate Dependent Foam,2024
  • Xie, Binglin;Tian, Ruitong;Zhao, Haiyang;Ye, Tongtong;Zhang, Yuan;Hu, Nan,Controlling crack propagation in layered beams with architected lattice-reinforced composite interlayer designs,Construction and Building Materials,2024
  • Zicheng Zhuang;Fengming Xu;Junhong Ye;Nan Hu;Liming Jiang;Yiwei Weng,Author Correction: A comprehensive review of sustainable materials and toolpath optimization in 3D concrete printing,npj Materials Sustainability,2024
  • Lin, Yangsheng;Zhu, Lu;Chen, Yimu;Wu, Kai;Xiong, Lu;Hu, Nan,An enhanced spatial extrusion method to manufacture large-scale thermoplastic lattice structures,Additive Manufacturing,2024
  • Hu, Nan;Block, Philippe;Carstensen, Josephine;Zhang, X. Shelly;Feng, Peng;Ng, Ching Tai,Editorial for special issue on additively manufactured structures,Engineering Structures,2024
  • Wang, Xinwei;Zhao, Yinghao;Wang, Zhihao;Hu, Nan*,An ultrafast and robust structural damage identification framework enabled by an optimized extreme learning machine,Mechanical Systems and Signal Processing,2024
  • Ma, Wenqian;Dong, Qing;Zhao, Haiyang;Li, Xuanyou;Xiong, Lu;Hu, Nan,Mechanics-guided manufacturing optimization framework to enhance the strength of architected lattice made from recycled plastic wastes,Additive Manufacturing,2024
  • Cheng, Jianfeng;Yao, Xianhua;Zhang, Zhipeng;Tan, Yizhong;Hu, Nan;Ma, Chunfeng;Zhang, Guangzhao,Intelligent anti-impact elastomers by precisely tailoring the topology of modular polymer networks,Materials Horizons,2024
  • Li, Zhixiong;Ye, Tongtong;Li, Xuanyou;Dong, Qing;Zha, Qian;Hu, Nan,Influence of Manufacturing Factors on the Mechanical Properties of 3D-Printed Soft Architected Composite,2024
  • Yao, Xianhua;Zhao, Haiyang;Ma, Ruiqi;Hu, Nan*,Manipulating localized geometric characteristics in multistable energy-absorbing architected materials,Thin-Walled Structures,2024
  • Cheng, Jianfeng;Yao, Xianhua;Zhang, Zhipeng;Tan, Yizhong;Hu, Nan;Ma, Chunfeng;Zhang, Guangzhao,Intelligent anti-impact elastomers by precisely tailoring the topology of modular polymer networks,Materials Horizons,2024
  • Li, Zhixiong;Xie, Chengshuang;Li, Feng;Wu, Di;Hu, Nan,Heterogeneous geometric designs in auxetic composites toward enhanced mechanical properties under various loading scenarios,COMPOSITES COMMUNICATIONS,2023
  • Xie, Binglin;Yao, Xianhua;Mao, Weining;Rafiei, Mohammad H.;Hu, Nan*;Xie B.;Yao X.;Mao W.;Rafiei M.H.;Hu N.*,High-efficient low-cost characterization of composite material properties using domain-knowledge-guided self-supervised learning,Computational Materials Science,2023
  • Xie Binglin;Li Xinyue;Zhao Xinyu;Hu Nan,Tunable properties and responses of architected lattice-reinforced cementitious composite components induced by versatile cell topology and distributions,Composite Structures,2023
  • Li Zhixiong;Xie Chengshuang;Li Feng;Wu Di;Hu Nan,Heterogeneous geometric designs in auxetic composites toward enhanced mechanical properties under various loading scenarios,Composites Communications,2023
  • Su, Chaohao;Yuan, Meiqin;Fan, Yi;Zhu, Lu;Hu, Nan,Parametric design and modular construction of a large additive-manufactured hypar shell structure,Architectural Intelligence,2023
  • Ye, Xijun;Cao, Yongjie;Liu, Airong;Wang, Xinwei;Zhao, Yinghao;Hu, Nan,Parallel convolutional neural network toward high efficiency and robust structural damage identification,Structural Health Monitoring,2023
  • Liu Tianchang;Gan Zhantu;Yin Yiwei;Zhao Dongdong;Hu Nan,Modular shape-switching architected materials toward programmable acoustic properties,Extreme Mechanics Letters,2023
  • Chen, Man;Yao, Xianhua;Zhu, Lu;Yin, Meishan;Xiong, Yan;Hu, Nan,Geometric design and performance of single and dual-printed lattice-reinforced cementitious composite,CEMENT & CONCRETE COMPOSITES,2023
  • Xie, Binglin;Li, Xinyue;Zhao, Xinyu;Hu, Nan,Tunable properties and responses of architected lattice-reinforced cementitious composite components induced by versatile cell topology and distributions,Composite Structures,2023
  • Li, Zhixiong;Liu, Pan;Chen, Baixi;Ye, Tongtong;Zhang, Yuan-Fang;Hu, Nan,Influence of manufacturing factors on compressive behavior of soft architected composite with a 3D-printed cellular core,Mechanics Research Communications,2023
  • Leong, Zee;Chen, Rongsheng;Xu, Zijie;Lin, Yangsheng;Hu, Nan,Robotic arm three-dimensional printing and modular construction of a meter-scale lattice facade structure,Engineering Structures,2023
  • Peng, Shan;Xie, Binglin;Wang, Yanlei;Wang, Mi;Chen, Xiaoxin;Ji, Xiaoyu;Zhao, Chenyang;Lu, Gang;Wang, Dianyu;Hao, Ruiran;Wang, Mingzhan;Hu, Nan;He, Hongyan;Ding, Yulong;Zheng, Shuang,Low- grade wind- driven directional flow in anchored droplets,Proceedings of the National Academy of Sciences,2023
  • Yu, Chi;Xie, Binglin;Yao, Xianhua;Hu, Nan;Guo, Jianhua;Jiang, Xinghua;Smith, Andrew T.;Sun, Luyi,Cabbage-like flexible fluororubber/carbon aerogel hybrids with negative Poisson's ratios and excellent microwave absorption,Matter,2023
  • Yao, Xianhua;Chen, Man;Zhao, Junxian;Zhang, Yunlan;Hu, Nan,Tailoring plastic deformation of metallic architected materials toward multi-stage energy dissipations,Materials and Design,2022
  • Ding, Yang;Huang, Xixian;Zhang, Hui;Ma, Jianhong;Li, Feng;Zeng, Qingyi;Hu, Nan;Wang, Yongdong;Dai, Zhongran;Ding, Dexin,Coupled variations of dissolved organic matter distribution and iron (oxyhydr)oxides transformation: Effects on the kinetics of uranium adsorption and desorption,Journal of Hazardous Materials,2022
  • Zhang, Daobo;Meng, Xinmiao;Hu, Nan;Feng, Peng,Experimental study on loading-induced power generation decline of component-level flexible solar cells,Thin-Walled Structures,2022
  • Liu, Pan;Mao, Weining;Yin, Yiwei;Gan, Zhantu;Zhao, Dongdong;Hu, Nan,Jigsaw-Inspired Modular Architected Materials with Tailorable Stiffness and Programmable Reconfiguration for Adaptive Flow Regulations,Advanced Engineering Materials,2022
  • Yao Xianhua;Chen Man;Zhao Junxian;Zhang Yunlan;Hu Nan,Tailoring plastic deformation of metallic architected materials toward multi-stage energy dissipations,Materials & Design,2022
  • Zhang Daobo;Meng Xinmiao;Hu Nan;Feng Peng,Experimental study on loading-induced power generation decline of component-level flexible solar cells,Thin-Walled Structures,2022
  • Jian, Si-Min;Wu, Bo*;Hu, Nan,Environmental impacts of three waste concrete recycling strategies for prefabricated components through comparative life cycle assessment,Journal of Cleaner Production,2021
  • Wan, Guangchao;Cai, Yijie;Liu, Yin;Jin, Congran;Wang, Dong;Huang, Shicheng;Hu, Nan;Zhang, John X. J.;Chen, Zi,Bistability in popper-like shells programmed by geometric defects,Extreme Mechanics Letters,2021
  • Jian Si-Min;Wu Bo;Hu Nan,Environmental impacts of three waste concrete recycling strategies for prefabricated components through comparative life cycle assessment,Journal of Cleaner Production,2021
  • Zhao, Yinghao;Joseph, Amal Jerald Joseph;Zhang, Zhiwei;Ma, Chunping;Gul, Davut;Schellenberg, Andrew;Hu, Nan,Deterministic snap-through buckling and energy trapping in axially-loaded notched strips for compliant building blocks,Smart Materials and Structures,2020
  • Zhang, Zhiwei;Pusateri, Simon;Xie, Binglin;Hu, Nan,Tunable energy trapping through contact-induced snap-through buckling in strips with programmable imperfections,Extreme Mechanics Letters,2020
  • Ma, Chunping;Zhang, Zhiwei;Luce, Benjamin;Pusateri, Simon;Xie, Binglin;Rafiei, Mohammad H.*;Hu, Nan*,Accelerated design and characterization of non-uniform cellular materials via a machine-learning based framework,npj Computational Materials,2020
  • Zhang, Zhiwei;Luce, Benjamin;Ma, Chunping;Xie, Binglin;Hu, Nan,Programmable origami-inspired cellular architected building blocks for flow-regulating adaptive weir,Extreme Mechanics Letters,2020
  • Wang, Huajie;Zhang, Zhiwei;Qian, Hongliang;Liu, Yulin;Hu, Nan;Fan, Feng,Galvanic corrosion induced localized defects and resulting strength reduction of circular steel tubes under axial compression: An experimental study,Thin-Walled Structures,2020
  • Huajie Wang;Zhiwei Zhang;Hongliang Qian;Yulin Liu;Nan Hu;Feng Fan,Galvanic corrosion induced localized defects and resulting strength reduction of circular steel tubes under axial compression: An experimental study,Thin-Walled Structures,2020
  • Zhiwei Zhang;Simon Pusateri;Binglin Xie;Nan Hu,Tunable energy trapping through contact-induced snap-through buckling in strips with programmable imperfections,Extreme Mechanics Letters,2020
  • Wan Guangchao;Cai Yijie;Liu Yin;Jin Congran;Wang Dong;Huang Shicheng;Hu Nan;Zhang John X.J.;Chen Zi,Bistability in popper-like shells programmed by geometric defects,Extreme Mechanics Letters,2020
  • Zhiwei Zhang;Benjamin Luce;Chunping Ma;Binglin Xie;Nan Hu,Programmable origami-inspired cellular architected building blocks for flow-regulating adaptive weir,Extreme Mechanics Letters,2020
  • Chunping Ma;Zhiwei Zhang;Benjamin Luce;Simon Pusateri;Binglin Xie;Mohammad H. Rafiei;Nan Hu,Accelerated design and characterization of non-uniform cellular materials via a machine-learning based framework,npj Computational Materials,2020
出版专著和教材
专利
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