1、代表性项目
(1)高含H2S/CO2腐蚀环境中BFRP的失效机理及界面优化研究,国家自然科学基金,12102374,主持
(2)具有损伤自感知能力的结构功能一体化玄武岩纤维复合材料关键技术研究,皇家永利国际合作重点项目,2024YFHZ0228,主持
(3)基于CVD法的玄纤复合材料界面调控及其油气田环境中腐蚀行为研究,中央引导地方项目,2023ZYD0032,主持
(4)酸性气田腐蚀环境中玄武岩纤维增强树脂基复合材料的失效机理研究,皇家永利国际合作项目, 2021YFH0031,主持
(5)基于纳米杂化薄膜的航空复合材料增韧降阻策略及机理,皇家永利国际合作项目,2017HH0086,主持
2、代表性论文
(1)D. Xiang*, X. Zhang et al., Enhanced performance of 3D printed highly elastic strain sensors of carbon nanotube/thermoplastic polyurethane nanocomposites via non-covalent interactions, Composites Part B: Engineering, 176, 107250, 2019.
(2)X. Zhang, D. Xiang*, W. Zhu, Flexible and high-performance piezoresistive strain sensors based on carbon nanoparticles@polyurethane sponges, Composites Science and Technology, 2020, 200, 108437.
(3)D. Xiang*, X. Zhang, E. Harkin-Jones et al., Synergistic effects of hybrid conductive nanofillers on the performance of 3D printed highly elastic strain sensors, Composites Part A: Applied Science and Manufacturing, 129, 105730, 2020.
(4) X. Zhang, D. Xiang*, Y. Wu et. al, High-performance flexible strain sensors based on biaxially stretched conductive polymer composites with carbon nanotubes immobilized on reduced graphene oxide, Composites Part A: Applied Science and Manufacturing, 151, 106665, 2021.
(5)Q. Chen, D. Xiang*, L. Wang et al., Facile fabrication and performance of robust polymer/carbon nanotube coated spandex fibers for strain sensing, Composites Part A: Applied Science and Manufacturing, 112, 186-196, 2018.
(6)H.M. Sun, D. Xiang*, J. Zhang et al., Electrical, mechanical and damage self-sensing properties of basalt fiber reinforced polymer composites modified by electrophoretic deposition, Progress in Natural Science: Materials International, 33, 593-600, 2023.
(7)L.B. Liu, X.Z. Zhang, D. Xiang*, Y.P. Wu et al., Highly stretchable, sensitive and wide linear responsive fabric-based strain sensors with a self-segregated carbon nanotube (CNT)/Polydimethylsiloxane (PDMS) coating, Progress in Natural Science: Materials International, 32, 34-42, 2022.
(8)D. Xiang*, L. Wang, Y. Tang, E. Harkin-Jones et al., Damage self-sensing behavior of carbon nanofiller reinforced polymer composites with different conductive network structures, Polymer, 158, 308-319, 2018.
(9)D. Xiang*, X. Zhang, W. Zhu et al., 3D printed high-performance flexible strain sensors based on carbon nanotube and graphene nanoplatelet filled polymer composites, Journal of Materials Science, 2020, 55, 15769
(10)D. Xiang*, L. Wang, Q. Zhang et al., Comparative Study on the Deformation Behavior, Structural Evolution, and Properties of Biaxially Stretched High-Density Polyethylene/Carbon Nanofiller (Carbon Nanotubes, Graphene Nanoplatelets, and Carbon Black) Composites, Polymer Composites, 39, S2, E909-E923, 2018
3、代表性专利
(1)向东,李鹏飞;一种玄武岩纤维增强树脂基复合材料界面优化的方法;ZL202010545209.1;
(2)向东,李维;一种增韧降阻碳纤维复合材料的制备方法;ZL 201711053666.3;
(3)向东,李维;一种杂化薄膜改性的碳纤维复合材料及其制备方法;ZL201910454943.4;
(4) 向东,王雷,陈钦;一种利用废旧热固性树脂制备柔性应变传感器的方法;ZL201810335615.8;
(5)向东,张学忠;一种基于双轴拉伸技术的柔性应变传感器的快速制备方法;ZL201910245027.X
4、省部级奖励
(1)高性能纤维增强树脂基复合材料关键技术及应用, 中国发明协会创新奖二等奖, 2024 (排1)
(2)国际先进材料协会青年科学家奖(IAAM Young Scientist Medal), 2022 (排1)
(3)英国材料,矿物与采矿学会(IOM3) Alan Glanvill Award, 2022 (排1) |