教师队伍

博士生导师

当前位置: 首页 -> 教师队伍 -> 研究生导师 -> 正文
  • 王冰

    性 别 :男

    出生年月:1987年3月

    系 别:机电工程系

    学 位:博士

    职 称:闽江学者特聘教授/博士生导师

  • 详细资料

    联系方式

    通讯地址:福州大学(旗山校区)机械学院南302

    电子邮箱:b.wang@fzu.edu.cn618wangbing@163.com

    个人简介

    王冰,英国剑桥大学副研究员,赫尔大学博士、博士后,现就职于福州大学机械学院,任福建省闽江学者特聘教授、博士生导师,福建省太赫兹功能器件与智能传感重点实验室副主任、学术委员会委员。是剑桥大学Clare Hall学院终身会员,中国机械工程学会材料分会青工委委员,福建省机械工程学会常务理事,福建省力学学会监事;SCI期刊Polymers、Materials、Computers, Materials & Continua、Advancesin Mechanical Engineering客座编辑,EI收录国际学术会议MDMA2022大会主席、CAMME2023大会联合主席、CoMEA2024协同主席、ICAM2024大会联合主席,多个国际学术会议技术委员会主席。长期从事空天科技结构强度及理论方面的研究,主要开展结构和功能协同设计、多尺度结构力学建模、空天折展结构设计、先进复合材料及其无损检测等方面的工作。主持国家自然科学基金青年、面上项目、省部级重点、英国科学技术设施委员会等项目,主研英国空天技术研究所、英国工程及物理科学研究委员会(EPSRC)等多个空天科技领域重大项目,以第一/通讯作者发表SCI论文五十余篇,过半数为Q1区论文,入选ESI高被引论文2篇,单篇最高被引390余次,出版学术专著/章节5部,申请国家发明专利20余件,担任Nature等期刊特邀审稿人;多项科研成果实现产业转化,并应用在空客A350,研究成果获EPSRC嘉奖。

    教育工作经历

    2022年03月—至今:福建省太赫兹功能器件与智能传感重点实验室副主任、学委会委员

    2020年03月—至今:福州大学机械工程及自动化学院 福建省闽江学者特聘教授、博士生导师

    2017年07月—2020年03月:英国剑桥大学 结构力学系 副研究员

    2017年02月—2017年06月:英国赫尔大学 机械工程系 博士后研究员

    2016年11月—2017年01月:英国赫尔大学 机械工程系 博士后研究助理

    2013年10月—2017年01月:英国赫尔大学 机械工程系 博士(PhD)

    主要学术及社会兼职

    英国剑桥大学Clare Hall学院终身会员

    教育部学位中心博硕士论文评审专家

    国家自然科学基金项目评审专家

    中国机械工程学会材料分会青委会委员

    福建省机械工程学会常务理事

    福建省力学学会监事

    中国机械工程学会高级会员

    中国复合材料学会高级会员

    国际先进材料与制造工程学会国际会员(SAMPE International Member)

    美国航空宇航学会会员(MAIAA);航空航天国际会议AIAA SciTech Forum特邀审稿人

    SCI期刊Polymers客座编辑,编撰特刊:Advances in Functional Polymers and Composites

    SCI期刊Materials客座编辑,编撰特刊:Advances in Smart Materials and Structures

    SCI期刊Computers, Materials & Continua客座编辑,编撰特刊:Computing Technology in the Design and Manufacturing of Advanced Materials

    SCI期刊Advances in Mechanical Engineering客座编辑,编撰特刊:Non-destructive Testing and Evaluation of Composite Materials and Structures

    国际学术会议大会主席(Conference Chair):2022 International Conference on Mechanical Design, Materials and Automation (MDMA2022)

    国际学术会议大会联合主席(Co-Conference Chair):7thInternational Conference on Aerospace, Mechanical and Mechatronic Engineering (CAMME2023)

    国际学术会议大会联合主席(Co-Conference Chair):2024 International Conference of Mechanical Engineering on Aerospace (CoMEA2024)

    国际学术会议大会联合主席(Co-Conference Chair):2024 International Conference on Aerospace and Mechanics (ICAM2024)

    担任五十余种SCI期刊特邀审稿人,包括国际顶级期刊:Nature,AdvancedMaterials;Carbon;Composites Part B-Engineering;NDT & E International

    主要研究领域(研究课题)

    1.空天结构强度及理论

    2.空天复合材料与结构力学

    3.智能驱动与控制

    4.机械结构强度理论与无损检测

    5.空天折展结构设计及理论

    主要科研项目

    1.国家自然科学基金,主持:星载双稳态可展开结构黏弹性强度调控机制与可控触发机理研究

    2.国家自然科学基金,主持:预应力双稳态复合材料的结构调控及其形变特性研究

    3.福建省闽江学者科研基金,主持:双稳态复合材料结构的断裂损伤机理研究

    4.英国科学技术设施委员会项目,主持:极限条件下双稳态复合材料结构的原位失效机理研究(与英国散裂中子源中心合作)

    5.创新英国基金会,主研:用于大型飞机起落架系统的双稳态复合材料技术研究(与航空航天顶级供应商赛峰起落架系统公司合作)

    6.英国工程及物理科学研究委员会,主研:先进合金的超声辅助成型技术及其固化机理研究(与英国钻石光源、美国阿贡国家实验室先进光子源中心紧密合作)

    7.英国工程及物理科学研究委员会,主研:用于露点空调冷却系统的新型复合材料散热板冷却效率研究

    8.英国赫尔大学项目,主研:预应力复合材料技术及其在航空航天形变结构中的应用研究

    9.主持机械结构设计及优化、多物理场多尺度耦合建模分析、结构损伤及其完整性评价等领域企业横向科研项目多项

    代表性论著

    1、代表性论文

    [1]Hui Chen,Bing Wang*, Xueqi Lin, Keith A Seffen, Shuncong Zhong. Folding mechanics of a bistable composite tape-spring for flexible mechanical hinge.International Journal of Mechanical Sciences2024, 272:109188. (中科院一区TOP期刊, Q1)

    [2] Chenmin Zhao#, Xinyu Lin#,Bing Wang*, Juncheng Zhu, Chenglong Guan, Shuncong Zhong. A multistable composite hinge structure.Thin-walled structures2024, 198: 111709. (中科院一区TOP期刊, Q1)

    [3]Bing Wang*, Juncheng Zhu, Shuncong Zhong*, Wei Liang, Chenglong Guan*.Space deployable mechanics: A review of structures and smart driving.Materials & Design2024, 237: 112557.(中科院一区TOP期刊, Q1)

    [4] Chenmin Zhao,Bing Wang*, Chenglong Guan, Shihan Jiang, Jianfeng Zhong*, Shuncong Zhong. Multiscale shear failure mechanisms within a prestrained composite.Polymer Composites2024: 1-12. (中科院二区,Q1)

    [5] Chenmin Zhao,Bing Wang*, Xinyu Lin, Folian Yu, Chenglong Guan, Shuncong Zhong.In-situstrainevolution mechanisms within a prestressedcarbon composite.Polymer Composites2024, 45(12): 10826-10838. (中科院二区,Q1)

    [6]Xiayu Chen#, Dongmei Du#,Bing Wang*,Shihan Jiang, Chenglong Guan, Shuncong Zhong.High-cycle folding fatigue mechanics of a bistable composite tape-spring.Materials Letters2024, 368: 136697.(中科院四区,Q2)

    [7] Chenglong Guan, Junhao Chen, Lihua Zhan, Tongming Chi,Bing Wang*, Shuncong Zhong. Simulation analysis for deformation and performance evolution of aerospace composite tank during curing process.Proceedings of 2024 3rd International Symposium on Intelligent Unmanned Systems and Artificial Intelligence(SIUSAI 2024). 2024: 210-215 (EI收录,ISBN: 979-8-4007-1002-5)

    [8] Chenmin Zhao,Bing Wang*, Xiayu Chen, Chenglong Guan, Shuncong Zhong. Interfacial strengthening mechanics within a prestrained Composite.Proceedings of 2024 3rd International Symposium on Intelligent Unmanned Systems and Artificial Intelligence(SIUSAI 2024). 2024: 390-394 (EI收录,ISBN: 979-8-4007-1002-5)

    [9] Xiayu Chen,Bing Wang*, Chenmin Zhao, Chenglong Guan, Shuncong Zhong. Long-term creep prediction of a carbon composite.Proceedings of 2024 3rd International Symposium on Intelligent Unmanned Systems and Artificial Intelligence(SIUSAI 2024). 2024: 395-398 (EI收录,ISBN: 979-8-4007-1002-5)

    [10] Biao Xu,Bing Wang*, Kevin S Fancey, Shuncong Zhong, Chenmin Zhao, Xiayu Chen. A bistable helical structure based on composite tape-springs.Composites Communications2023, 43: 101723.(中科院二区, Q1)

    [11] Hui Chen, Folian Yu,Bing Wang*, Chenmin Zhao, Xiayu Chen; W Nsengiyumva, Shuncong Zhong. Elastic fibre prestressing mechanics within a polymeric matrix composite.Polymers2023, 15(2): 431. (ESI高被引论文,中科院二区, Q1)

    [12] Xueqi Lin,Bing Wang*, Zhao Chenmin, Walter Nsengiyumva, Shuncong Zhong, Hui Chen, Dianzi Liu. Durability of viscoelastic fibre prestressing in a polymeric composite.Polymers2023, 15(4): 811.(中科院二区, Q1)

    [13]Bing Wang, Yi Hou, Shuncong Zhong*, Juncheng Zhu, Chenglong Guan. Biomimetic Venus flytrap structures using smart composites: A review.Materials2023, 16(20): 6702.(中科院三区, Q1)

    [14]Bing Wang*, Tung Lik Lee, Yang Qin. Advances in smart materials and structures.Materials2023, 16: 7206. (Editorial,中科院三区, Q1)

    [15] Chenglong Guan, Lihua Zhan*, Dechao Zhang, Shuming Yao, Shuncong Zhong,Bing Wang*. Microwave uniformity regulation and its influence on temperature field distribution of composite materials.Journal of Central South University2023, 30(10): 3374−3394.(中科院二区, Q1)

    [16] Chenglong Guan, Tongming Chi, Lihua Zhan*, Junhao Chen,Bing Wang*, Liping Xie, Shuncong Zhong. Analysis of deformation and properties of composite melon petals via vibration pretreatment—microwave compound curing.Polymers2023, 15(23): 4541. (中科院二区, Q1)

    [17] Chenglong Guan, Lihua Zhan*, Fuwei Sun, Shunming Yao, Shuncong Zhong,Bing Wang*. Study on the heating mechanism and macro/micro properties of composite materials under microwave curing.Polymer Composites2023: 1-17.(中科院二区, Q1)

    [18] Walter Nsengiyumva, Shuncong Zhong*, Manting Luo,Bing Wang. Terahertz spectroscopic characterization and thickness evaluation of internal delamination defects in GFRP composites.Chinese Journal of Mechanical Engineering2023, 36: 6.(中科院二区, Q1)

    [19] Walter Nsengiyumva, Shuncong Zhong*, Longhui Zheng, Wei Liang,Bing Wang, Yi Huang, Xuefeng Chen, Yaochun Shen. Sensing and nondestructive testing applications of terahertz spectroscopy and imaging systems: State-of-the-art and state-of-the-practice.IEEE Transactions on Instrumentation and Measurement, 2023, 72: 4507483.(中科院二区TOP期刊, Q1)

    [20]Chao Yang,Bing Wang*, Shuncong Zhong, Chenmin Zhao, Wei Liang.On tailoring deployable mechanism of a bistable composite tape-spring structure.Composites Communications2022, 32: 101171. (中科院二区, Q1)

    [21] Xueqi Lin,Bing Wang*, Shuncong Zhong, Hui Chen, Dianzi Liu. Smart driving of a bilayered composite tape-spring structure.Journal of Physics: Conference Series2022, 2403: 012042. (EI收录)

    [22] Walter Nsengiyumva, Shuncong Zhong*,Bing Wang, Longhui Zheng, Zhenhao Zhang, Qiukun Zhang, Jianfeng Zhong, Manting Luo, Zhike Peng. Terahertz spectroscopic study of optical and dielectric properties of typical electrical insulation materials,Optical Materials2022, 123: 111837. (中科院三区, Q2)

    [23] Walter Nsengiyumva, Shuncong Zhong*, Longhui Zheng,Bing Wang, Xueqi Lin; Xibin Fu, Zhike Peng. Theoretical and experimental analysis of the dielectric properties of 3D orthogonal woven GFRP composites in the terahertz frequency range,Optik2022, 260: 169105. (中科院三区, Q2)

    [24]Bing Wang*, Keith A. Seffen, Simon D. Guest. Folded strains of a bistable composite tape-spring.International Journal of Solids and Structures2021, 233: 111221. (中科院二区, Q1区)

    [25] Zhong Tang, Ben Zhang,Bing Wang*, Meilin Wang, Hui Chen, Yaoming Li. Breaking paths of rice stalks during threshing.Biosystems Engineering, 2021, 204: 346-357.(中科院一区TOP期刊, Q1)

    [26]Bing Wang*, Keith Seffen, Simon Guest, TL Lee, S Huang, SF Luo, JW Mi.In-situmultiscale shear failure of a bistable composite tape-spring.Composites Science and Technology2020, 200: 108348. (中科院一区TOP期刊, Q1)

    [27]Bing Wang*, Shuncong Zhong, Tung-Lik Lee, Kevin S Fancey, Jiawei Mi. Non-destructive testing and evaluation of composite materials/structures: A state-of-the-art review.Advances in Mechanical Engineering2020, 12(4): 1-28. (期刊特色文章,ESI高被引论文,中科院四区, Q3)

    [28]Bing Wang*. Moisture absorption and diffusion of a carbon composite structure.Sustainable Marine Structures, 2019, 1(2): 17-23.

    [29] Keith Seffen*,Bing Wang, Simon Guest.Folded orthotropic tape-springs.Journal of the Mechanics and Physics of Solids, 2019, 123: 138-148. (中科院一区TOP期刊, Q1)

    [30]Bing Wang*, Keith Seffen, Simon Guest. Shape of a bistable composite tape-spring in folding.AIAA SciTech 2019 Forum, San Diego, US. DOI: 10.2514/6.2019-2276.

    [31]Bing Wangand Kevin Fancey*. Visocoelastically prestressed polymeric matrix composites: An investigation into fibre deformation and prestress mechanisms.Composites Part A-Applied Science and Manufacturing2018, 111: 106-114. (中科院一区TOP期刊, Q1)

    [32]Bing Wang,Dongyue Tan, Tung Lik Lee, Jia Chuan Khong, Feng Wang, Dmitry Eskin, Thomas Connolley, Kamel Fezzaa, Jiawei Mi*.Ultrafast synchrotron X-ray imaging studies of microstructure fragmentation in solidification under ultrasound,Acta Materialia2018, 144: 505-515.(中科院一区TOP期刊, Q1)

    [33]Bing Wang, Dongyue Tan, Tung Lik Lee, Jia Chuan Khong, Feng Wang, Dmitry Eskin, Thomas Connolley, Kamel Fezzaa, Jiawei Mi*. Data and videos for ultrafast synchrotron X-ray imaging studies of metal solidification under ultrasound.Data in Brief2018, 17: 837-841.

    [34]Bing Wang*, Keith Seffen, Simon Guest. Folding of a bistable tape-spring structure based on plain-woven composite.26th International Conference on Composites/Nano Engineering Proceeding. 2018, Paris.

    [35]Bing Wang, Chao Ge, Kevin Fancey*. Snap-through behaviour of a bistable structure based on viscoelastically generated prestress.Composites Part B-Engineering2017, 114: 23-33. (中科院一区TOP期刊, Q1)

    [36]Bing Wangand Kevin Fancey*. Application of time-stress superposition to viscoelastic behavior of nylon 6,6 fibre and its ‘true’ elastic modulus.Journal of Applied Polymer Science2017, 134(24): 1-9. (中科院三区, Q2)

    [37] Chao Ge,Bing Wang, Kevin Fancey*. An evaluation of the scanning electron microscope mirror effect to study viscoelastically prestressed polymeric matrix composites.Materials Today Communications2017, 12: 79-87.(中科院三区, Q2)

    [38]Bing Wangand Kevin Fancey*. Towards optimisation of load-time conditions for producing viscoelastically prestressed polymeric matrix composites.Composites Part B-Engineering2016, 87: 336-342. (中科院一区TOP期刊, Q1)

    [39]Bing Wangand Kevin Fancey*. Shape-changing (bistable) composites based on viscoelastically generated prestress.10thInternational Conference on Composite Science and Technology Proceeding (ICCST/10)2015, Portugal. Doi: 10.13140/RG.2.1.1735.6249.

    [40]Bing Wangand Kevin Fancey*. A bistable morphing composite using viscoelastically generated prestress.Materials Letters2015, 158: 108-110. (中科院二区TOP期刊, Q1)

    2、已出版学术专著/章节如下:

    [1]Bing Wang*, Tung Lik Lee, Yang Qin. Advances in smart materials and structures. MDPI, Switzerland Basel, 2023: 1-196.(专著,ISBN 978-3-0365-9560-3).

    [2] Chenmin Zhao,Bing Wang*, Shuncong Zhong, Md. Akhtaruzzaman, Wei Liang, Hui Chen. Polymer-based nanoscale materials for surface coating, Chapter 12: NDT studies of nanoscale polymeric coatings. Elsevier, Netherlands Amsterdam, 2023: 235-257. (专著章节,ISBN 978-0-323-90778-1).

    [3]Bing Wang*, Keith Seffen, Simon Guest. Folding of bistable composite tape-springs. Cambridge University Engineering Department. Jan 2019 CUED/D-STRUCT/TR.252. (Monograph).

    [4]Bing Wang*. Viscoelastically prestressed composites: towards process optimisation and application to morphing structures. University of Hull, July 2016 (Monograph).

    [5] Chenmin Zhao,Bing Wang*, Xiayu Chen, Xinyu Lin, Chenglong Guan, Shuncong Zhong. Advances and Challenges in Advanced Unmanned Aerial Systems, A prestrained bistable composite gridded structure. Springer Singapore, 2024: 397-403. (专著章节,978-981-99-8045-1)

    [6] Xiayu Chen,Bing Wang*, Chenmin Zhao, Dongmei Du, Chenglong Guan, Shuncong Zhong. Advances in Automation, Mechanical and Design Engineering, Chapter 14: Towards a unified theory on the superposition principles. Springer Switzerland, 2024: 143-150. (专著章节,ISBN 978-3-031-62664-7)

    3、已申请发明专利如下:

    [1]王冰;杨潮;钟舜聪,复合材料薄壳平面折展装置及收展方法, 2021-10-25,中国, 2021112375268.(发明专利已授权)

    [2]王冰;赵陈敏;余佛链;林学旗;钟舜聪,复合材料卷尺及层合板结构预应力调控装置, 2022-5-9,中国, 2022104959002.(发明专利已授权)

    [3]王冰;吴涛;赵陈敏;钟舜聪,基于多稳态复合材料薄壳的手性可变形结构及其制造方法, 2022-01-14,中国, 2022100397434.(发明专利已授权)

    [4]王冰;徐彪;关成龙;赵陈敏;钟舜聪,一种基于复合材料薄壳的双稳态扭转结构, 2023-3-30,中国, 2023103229859.(发明专利已授权)

    [5]王冰;杨潮;钟舜聪,复合材料薄壳平面折展装置, 2021-10-25,中国, 2021225590395.(实用新型专利已授权)

    [6]王冰;吴涛;赵陈敏;钟舜聪,一种基于多稳态复合材料薄壳的手性可变形结构, 2022-1-14,中国, 2022200883194.(实用新型专利已授权)

    [7]王冰;赵陈敏;余佛链;林学旗;钟舜聪,复合材料结构预应力调控装置, 2022-5-9,中国, 2022210864359.(实用新型专利已授权)

    [8]王冰;林心雨;赵陈敏;关成龙;钟舜聪,一种可控伸缩长距离监测装置, 2024-4-22,中国,2023226534480(实用新型专利已授权)

    [9]王冰;杜冬梅;陈侠宇;赵陈敏;关成龙;钟舜聪,一体式十字卷展天线装置, 2024-4-23,中国, 2023230585288.(实用新型专利已授权)

    [10]王冰;林心雨;赵陈敏;陈侠宇;关成龙;钟舜聪,一种多稳态可折叠铰链结构,中国,2023230585235.(实用新型专利已授权)

    [11]王冰;徐彪;关成龙;赵陈敏;钟舜聪,一种双稳态复合材料扭转结构收展方法, 2023-3-30,中国, 2023103229810.(发明专利实审中)

    [12]王冰;林心雨;赵陈敏;关成龙;钟舜聪,一种可控伸缩长距离监测装置及其工作方法, 2023-9-28,中国,2023112727637.(发明专利实审中)

    [13]黄异;林辉圣;钟舜聪;王冰;张震;丁思民,基于太赫兹光谱的应力原位无损检测装置, 2023-10-8,中国, 2023112934872.(发明专利实审中)

    [14]王冰;陈侠宇;赵陈敏;关成龙;钟舜聪,一种可控变形复合材料卷尺结构设计方法及制造方法, 2023-10-29,中国,2023114112302.(发明专利实审中)

    [15]王冰;林心雨;赵陈敏;陈侠宇;关成龙;钟舜聪,一种多稳态可折叠铰链结构及其制造方法, 2023-11-13,中国, 2023115062122.(发明专利实审中)

    [16]王冰;杜冬梅;陈侠宇;赵陈敏;关成龙;钟舜聪,一体式十字卷展天线装置及其制造方法, 2023-11-13,中国, 2023115062175.(发明专利实审中)

    [17]王冰;陈侠宇;赵陈敏;关成龙;钟舜聪,一种薄壁双稳态结构形变设计及体系化制造方法, 2023-11-13,中国, 2023115062090.(发明专利实审中)

    [18]王冰;谢剑彬;钟舜聪;李劲林;李怡杰;汪帅帅,一种基于条纹投影轮廓术的复合材料曲率测量装置和方法, 2024-2-18,中国, 202410180430X.(发明专利实审中)

    [19]王冰;胡智超;杜冬梅;赵陈敏;关成龙;钟舜聪,一种可控升降多足卷展机构及其卷展方法,2024-7-15,中国,2024109430009.(发明专利实审中)

    [20]王冰;彭玉琳;林心雨;赵陈敏;关成龙;钟舜聪,一种卷轴式柔性太阳能电池帆膜卷展装置及收展方法,2024-6-24,中国,2024108153282.(发明专利实审中)

    [21]王冰;彭玉琳;秦子皓;关成龙;钟舜聪,一种便携式复合材料可折叠空间机构及收展方法.(发明专利受理中)

    [22]王冰;苏炳华;杜冬梅;彭玉琳;林心雨;关成龙;钟舜聪,一种可变角度柔性抛物面天线卷展机构及调控方法.(发明专利受理中)

    4、应邀作国内外学术会议主旨/特邀报告

    [1]大会报告(Plenary Lecture):Folding mechanics of a bistable composite tape-spring structure.4thJoint Symposium on Advanced Mechanical Science and Technology,日本姬路市,2024-9-25至2024-9-28.

    [2]特邀报告:柔性双稳态复合铰链的折展形变机理研究.2024全国机械与材料工程学术研讨会,江苏南京,2024-8-23至2024-8-26.

    [3]大会报告(Plenary Lecture):Deployable mechanics of a bistable composite tape-spring for flexible mechanical hinge.2024 InternationalConference on Aerospace and Mechanics,辽宁沈阳,2024-7-12至2024-7-14.

    [4]特邀报告:双稳态复合材料卷尺结构及其智能驱动.2023全国功能材料与器件大会,功能材料与器件专家委员会主办,山东青岛, 2023-12-8至2023-12-10.

    [5]特邀报告:双稳态复合材料卷尺结构折展强度与疲劳断裂机理研究.2023中国材料疲劳与断裂预防交流会,贵州贵阳, 2023-8-11至2023-8-13.

    [6]特邀报告(Invited Speaker):Foldable mechanical hinge based on bistable composite tape-springs.2022 International Conference on Mechanical and Electronics Engineering,中国西安, 2022-11-21至2022-11-23.

    [7]主旨报告(Keynote Speech):Structural and functional integration of foldable mechanical composite hinges.2022International Conference on Mechanical, Aerospace Technology and Materials Application.线上国际会议,2022-9-23至2022-9-25.

    [8]主旨报告(Keynote Speech):Foldable mechanical hinge design based on a bistable composite tape-spring structure.2022 International Symposium on Non-destructive Testing and Advanced Structural Materials,线上国际会议, 2022-8-20至2022-8-21.

    [9]主旨报告(Keynote Speech):Bistable composite technologies for foldable mechanical hinge design.2ndInternational Conference on Mechanical, Electronics and Electrical and Automation Control.线上国际会议,2022-01-07至2022-1-9.

    [10]特邀报告:双稳态复合材料结构力学及其无损检测.福建省力学学会2021年学术年会,线上会议,2021-12-19.

    [11]特邀报告:双稳态复合材料结构的原位多尺度剪切失效机理.第八届材料与结构强度青年工作论坛暨中国机械工程学会材料分会青年工作年会,江苏无锡,2021-6-25至2021-6-27.

    [12]特邀报告(Invited Speaker):Multiscale shear failure mechanisms of a bistable composite tape-spring.3rdInternational Conference on Material Strength and Applied Mechanics.中国澳门,2020-12-6至2020-12-9.

    [13]特邀学术讲座:Bistable Composite Technologies.英国杜伦大学工程学院(Department of Engineering, Durham University),英国杜伦,2020-2-26.

    [14]特邀学术讲座:Morphing Composite Technologies).Clare Hall Cambridge Postdctoral Symposium.英国剑桥,2018-11-4.

    [15]特邀报告:Bistable composite tape-springs for aircraft landing gear.5thCambridge Materials Network Meeting –Materials Challenges for Future Aerospace,英国剑桥,2019-4-2至2019-4-3.

    获奖情况

    1.2024年9月获第十六届设计与制造前沿国际会议(ICFDM2024)大会优秀论文(指导老师)

    2.2024年5月获第八届航空航天、机械工程与机电一体化国际会议(CAMME2024)大会最佳论文(指导老师)

    3.2023年7月获第五届全国连接结构动力学学术研讨会大会优秀口头报告

    4.2022年12月获福州大学教师教学创新大赛(正高组)二等奖

    5.2020年12月获第三届材料强度与应用力学国际会议(MSAM2020)最佳大会报告

    6.2018年8月获中科院二区期刊Archives of Civil and Mechanical Engineering杰出审稿人奖

    指导硕、博士生、博士后研究方向

    1.空天复合材料结构设计、制备与动静态力学性能表征

    2.空天复合材料结构调控及形变特性研究

    3.复合材料结构力学与多尺度断裂损伤机理研究

    4.双稳态可展开结构智能驱动与控制研究

    5.一维/二维/三维空间折展结构设计与理论研究

    6.空天复合材料结构无损检测与评价

    7.空天复合材料结构疲劳、强度与寿命预测

    8.预应力复合材料技术研究

    9.拓扑结构设计与优化

    指导招收博士研究生专业方向:080202机械电子工程;080203机械设计及理论。

    指导招收硕士研究生专业方向:0802机械工程一级学科及其子学科;0855机械工程专硕。

    与国内外多所国际知名高校长期合作,欢迎志存高远、脚踏实地的本科生、硕士生、博士生和博士后加入团队(机械、力学、航空航天、材料、物理等相关专业背景)。