李桐
个人信息Personal Information
教授
博士生导师
硕士生导师
性别:男
毕业院校:昆士兰科技大学
学位:博士
所在单位:力学与航空航天学院
学科:固体力学. 计算力学. 航空航天力学与工程
办公地点:工程力学系511房间
联系方式:0411-84706036
电子邮箱:tong@dlut.edu.cn
扫描关注
- [1]张笑闻, 李桐, 黄诚, 任明法, 王博.Determining the fiber/matrix interfacial shear strength under cryogenic conditions by statistical...[J],POLYMER COMPOSITES,2022
- [2]Zhang, Xiao-wen, 李桐, Huang, Cheng, Qi-zhong, 任明法, 王博.Determining the fiber/matrix interfacial shear strength under cryogenic conditions by statistic...[J],POLYMER COMPOSITES,2022,42(1):439-449
- [3]王博, Zhang, Ke, 周才华, 任明法, Gu, Yuantong, 李桐.Engineering the mechanical properties of CNT/PEEK nanocomposites[J],RSC Advances,2022,9(23):12836-12845
- [4]宋志博, 明世朝, 李桐, 杜凯繁, 周才华, 王博.Improving the energy absorption capacity of square CFRP tubes with cutout by introducing chamfer[J],INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES,2022,189(105994):1-17
- [5]Song, Zhibo, Ming, Shizhao, 李桐, 杜凯繁, 周才华, 王博.Improving the energy absorption capacity of square CFRP tubes with cutout by introducing chamfer[J],INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES,2022,189
- [6]周才华, 李桐, Ming, Shizhao, Song, Zhibo, 王博.Improving the Energy Absorption of Cruciform With Large Global Slenderness Ratio by Kirigami Ap...[J],JOURNAL OF APPLIED MECHANICS TRANSACTIONS OF THE ASME,2022,86(8)
- [7]李桐, 李明强, 李航, Zhao, Hu.High-voltage and long-lasting aqueous chlorine-ion battery by virtue of "water-in-salt'' electrol...[J],ISCIENCE,2022,24(1)
- [8]穆林, 李桐, 王振, 尚妍, 尹洪超.Influence of water/acid washing pretreatment of aquatic biomass on ash transformation and slaggin...[J],ENERGY,2022,234
- [9]Owuor, Peter Samora, Tiwary, Chandra Sekhar, Ajayan, Pulickel M., Hwang, Hye Yoon, Sajadi, Mohamed, Jung, Seohui, 李桐, Susarla, Sandhya, Wei, Bingqing, Vajtai, Robert, Bhowmick, Sanjit.Interconnecting Bone Nanoparticles by Ovalbumin Molecules to Build a Three-Dimensional Low-Densit...[J],ACS Applied Materials Interfaces,2022,10(48):41757-41762
- [10]周才华, Xia, Chaoxiang, Ming, Shizhao, 毕祥军, 李桐.Low-Velocity Impact Response of Discontinuous Kirigami Cruciform Sandwich Panel[J],International Journal of Applied Mechanics,2022,11(5)
- [11]周才华, Ming, Shizhao, 李桐, 王博, 任明法.The Energy Absorption Behavior of Cruciforms Designed by Kirigami Approach[J],JOURNAL OF APPLIED MECHANICS TRANSACTIONS OF THE ASME,2022,85(12)
- [12]明世朝, 宋志博, 周才华, 李桐, 杜凯繁, 徐胜利, 王博.The energy absorption of long origami-ending tubes with geomertical imperfections[J],THIN WALLED STRUCTURES,2022,161(107415):1-15
- [13]Ming, Shizhao, Song, Zhibo, 周才华, 李桐, 杜凯繁, 徐胜利, 王博.The energy absorption of long origami-ending tubes with geometrical imperfections[J],THIN-WALLED STRUCTURES,2022,161
- [14]Ming, Shizhao, Song, Zhibo, 李桐, 杜凯繁, 周才华, 王博.The energy absorption of thin-walled tubes designed by origami approach applied to the ends[J],MATERIALS DESIGN,2022,192
- [15]Zhao, Shi-Min, 冯太傅, 李桐, Li, Xue-Qian, Sun, Ke-Sheng.THE SUPERSYMMETRIC TWO-LOOP CORRECTIONS TO MUON MAGNETIC DIPOLE MOMENTS IN THE CP-VIOLATING MSS...[J],MODERN PHYSICS LETTERS A,2022,27(14)
- [16]任明法, Chang, Xin, 徐弘一, 李桐.Trans-scale analysis of composite overwrapped pressure vessel at cryogenic temperature[J],COMPOSITE STRUCTURES,2022,160:1339-1347
- [17]Huang, Cheng, 任明法, 李桐, Chang, Xin, Cong, Jie, Lei, YongJun.Trans-scale modeling framework for failure analysis of cryogenic composite tanks[J],COMPOSITES PART B ENGINEERING,2022,85:41-49
- [18]Zhu, Jinmeng, Li, Xuanhua, 景妍, Zhao, Xichen, Cao, Yijian, Camaiti, Mara, 李桐, Wei, Bingqing.Tuning the Dimensionality of Nano Ca(OH)(2) with Surfactants for Wall Painting Consolidation[J],ChemNanoMat,2022,5(9):1152-1158
- [19]李桐, Hu, Jingzhi, Wei, Bingqing.Understanding of Anion Transport in Polymer Electrolytes for Supercapacitors[J],ADVANCED THEORY AND SIMULATIONS,2022,2(2)
- [20]李桐, Bingqing Wei, Robert Vajtai, James M Tour, Jun Lou, Chandra Sekhar Tiwary, Pulickel M Ajayan, Peter Samora Owuor, Thierry Tsafack, Steven Schara, HyeYoon Hwang, Seohui Jung, Rodrigo V Salvatierra, Sandhya Susarla, Muqing Ren.Achieving Self‐Stiffening and Laser Healing by Interconnecting Graphene Oxide Sheets with Amine...[J],Advanced Materials Interfaces,2022,5(20):1800932-