科研成果 |
部分代表性论文(Selected Publications) [1] Guoqing Li, Jingmei Tao*, Caiju Li, Yichun Liu, Rui Bao, Fengxian Li, Yulan Gong, Jianhong Yi. Competitive growth between the top and bottom layers of few-layer graphene at the domain boundary merging stage. Ceramics International, 2023, 49: 9251-9259 [2] Ran Long, Yang Liu, Jingmei Tao*, Hui Zhang, Yichun Liu, Rui Bao, Fengxian Li, Caiju Li, Jianhong Yi. Synergistic influence of carbon nanotube -graphene oxide hybrid and nanosized interfacial TiC on the mechanical performance of Cu matrix composites. Journal of materials research and technology 2023, 25: 2866-2879 [3] Junqin Feng, Jingmei Tao*, Yichu Liu, Rui Bao, Fengxian Li, Dong Fang, Caiju Li, Jianhong Yi. Optimization of the mechanical properties of CNTs/Cu composite by regulating the size of interfacial TiC. Ceramics International, 2022, 48: 26716-26724 [4] Yang Liu, Jingmei Tao*, Yichun Liu, Yong Hu, Rui Bao, Fengxian Li, Dong Fang, Caiju Li, Jianhong Yi. Regulating the mechanical properties and electrical conductivity of CNTs/Cu composites by tailoring nano-sized TiC on the surface of intact CNTs, Carbon, 2021, 185: 428-441 [5] Xia Wei, Jingmei Tao*, Yong Hu, Yichun Li, Rui Bao, Fengxian Li, Dong Fang, Caiju Li, Jianhong Yi. Enhancement of mechanical properties and conductivity in carbon nanotubes (CNTs)/Cu matrix composite by surface and intratube decoration of CNTs, Materials Science & Engineering A, 2021, 816: 141248 [6] He Zhang, Yang Liu, Jingmei Tao*, Yichun Liu, Rui Bao, Fengxian Li, Jianhong Yi. Direct synthesis of carbon nanotube-graphene hybrids on copper powders and the mechanical properties of corresponding composites, Materials Science & Engineering A, 2021, 825: 141861 [7] Xiaofeng Chen, Jingmei Tao*, Yichun Liu, Rui Bao, Fengxian Li, Caiju Li, Jianhong Yi, Interface interaction and synergistic strengthening behavior in pure copper matrix composites reinforced with functionalized carbon nanotube-graphene hybrids. Carbon, 2019, 146: 736-755. [8] Mengyuan Wang, Xu Yang, Jingmei Tao*, Yi Bu, Yichun Liu, Zhoumeng Pu, Jianhong Yi, Achieving high ductility in layered carbon nanotube/copper composite prepared by composite electrodeposition. Diamond & Related Materials, 2020, 108: 107992 [9] Xia Wei, Jingmei Tao*, Yichun Liu, Rui Bao, Fengxian Li, Dong Fang, Caiju Li, Jianhong Yi, High strength and electrical conductivity of copper matrix composites reinforced by carbon nanotube-graphene oxide hybrids with hierarchical structure and nanoscale twins. Diamond & Related Materials, 2019, 99: 107537 [10] Guijun Liu, Jingmei Tao*, Fengxian Li, Rui Bao, Yichun Liu, Caiju Li, Jianhong Yi, Optimizing the interface bonding in Cu matrix composites by using functionalized carbon nanotubes and cold rolling, Journal of Materials Research, 2019, 34: 2600-2608. [11] Xiaofeng Chen, Jingmei Tao*, Jianhong Yi, Yichun Liu, Rui Bao, Caiju Li, Songlin Tan, Xin You, Enhancing the strength of carbon nanotubes reinforced copper matrix composites by optimizing the interface structure and dispersion uniformity, 2018, 88: 74-84. [12] Tao Jingmei*, Chen Xiaofeng, Hong Peng, Yi Jianhong, Microstructure and electrical conductivity of laminated Cu/CNT/Cu composites prepared by electrodeposition. Journal of Alloys & Compounds, 2017, 717: 232-239. [13] Chen Xiaofeng, Tao Jingmei*, Yi Jinghong, Liu Yichun, Bao rui, Li Caiju, Electrodeposited Cu/buckypaper composites with high electrical conductivity and ampacity. Journal of Alloys & Compounds, 2018, 735: 163-171. [14] Chen Xiaofeng, Tao Jingmei*, Yi Jianhong, Li Caiju, Bao Rui, Liu Yichun, You Xin, Tan Songlin, Balancing the strength and ductility of carbon nanotubes reinforced copper matrix composites with microlaminated structure and interdiffusion interface, Materials Science & Engineering A, 2018, 712: 790-793. [15] Xiaofeng Chen, Tao Jingmei*, Jianhong Yi, Yichun Liu, Caiju Li, Rui Bao, Strengthening behavior of carbon nanotube-graphene hybrids in copper matrix composites, Materials Science & Engineering A, 2018, 718: 427-436. [16] 陶静梅, 洪鹏, 陈小丰, 易健宏, 碳纳米管增强铜基复合材料的研究进展, 材料工程, 2017, 45(04): 128-136. [17] Tao J M,Chen G M,Jian W W,Wang J,Zhu Y T,Zhu X K, Langdon T G,Anneal hardening of a nanostructured Cu-Al alloy processed by high-pressure torsion and rolling,Materials Science and Engineering A, 2015, 628:207-215. [18] Tao J M, Zhu X K, Tian W W, Yang P, Yang H, Properties and microstructure of Cu/diamond composites prepared through spark plasma sintering, Transactions of Nonferrous Metals Society of China, 10, 2014. [19] Tao J M, Yang K, Xiong H, Wu X X, Zhu X K, Wen C. The defect structures and mechanical properties of Cu and Cu-Al alloys processed by split Hopkinson pressure bar, Materials Science and Engineering: A, 580: 406-409, 2013. [20] Tao J M, Zhu X K, Scattergood R O, Koch C C, The thermal stability of high-energy ball-milled nanostructured Cu, Materials & Design, 50: 22-26, 2013. 专著(Books) [1] 朱心昆,陶静梅,块体纳米结构材料,科学出版社,17.1万字,2014 部分授权专利(Patents) [1] 陶静梅,陈小丰,易健宏,鲍瑞,李才巨,刘意春,游昕,谈松林,李凤仙。一种碳纳米管增强铜基复合材料的制备方法,授权日期:2019-7-5,中国,ZL2017106997055.0. [2] 陶静梅,刘贵君,易健宏,鲍瑞,刘意春,李凤仙,李才巨,游昕,谈松林。一种裂解碳纳米管增强铜基复合材料的制备方法,授权日期:2020-7-31,中国,ZL201810862025.0. [3] 陶静梅,王梦圆,易健宏,刘意春,鲍瑞,李凤仙,李才巨,游昕,谈松林。一种层状碳纳米管增强铜基复合材料的制备方法,授权日期:2020-12-15,中国,ZL201811562858.1. [4] 陶静梅,魏霞,易健宏,鲍瑞,刘意春,李凤仙,李才巨,游昕,谈松林。一种具有层级结构的CNT-GO-Cu复合材料的制备方法,授权日期:2020-12-15,中国,ZL201811562857.7. [5] 陶静梅,彭健,易健宏,鲍瑞,刘意春,李凤仙,李才巨,游昕,谈松林。一种氢气刻蚀的碳纳米管增强铜基复合材料的制备方法,授权日期:2021-5-11,中国,ZL201911259638.6. [6] 陶静梅,刘杨,易健宏,鲍瑞,刘意春,李凤仙,李才巨,游昕,谈松林。一种通过界面调控制备碳纳米管-铜复合材料的方法,授权日期:2022-7-5,中国,ZL202110264109.6. [7] 陶静梅,李国庆,易健宏,刘意春,鲍瑞,李凤仙,方东,李才巨,游昕,谈松林。一种两步化学气相沉积法制备石墨烯的方法,授权日期:2024-3-4,中国,ZL 202111496317.5. |
