科研团队
- 主要研究方向
- 代表性科研项目
- 代表性科研成果
- 专利
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1. 磁性材料及材料磁性应用技术
2. 核电站用金属材料——老化损伤检测评估与机理分析
3. 全固态锂电池
4. 锂电池正﹑负极材料
5. 透射电子显微镜表征
6. 热动力学计算,相场模拟,高温合金材料
1. 两机专项: 重型燃气轮机蜂窝封严结构用高温合金箔材试制,重型燃气轮机服役后叶片分析;
2. 佛山市创新基金: 高镍三元正极的表面和晶界调控,三元高镍NCM正极材料的表面修饰,混合导体表面修饰锰酸锂的电化学性能研究;
3. 核电站反应堆控制棒驱动机构用高性能隔磁片材料研制与试验;
4. RPV钢中子辐照损伤磁性无损检测技术基础研究;
5. 北京市教委科技成果转化于产业化项目:奥氏体不锈钢管内氧化物磁性无损检测技术;
6. 国家高技术研究开发计划(863计划)课题:纳米复合稀土永磁的研究与开发;
7. 博士后科学基金:GH4169合金高曲率表面 氧化过程的平坦化机制研究
8. 国家自然科学基金青年科学基金:位错和点缺陷扩散热-力模型建立及其在相场模拟高温合金蠕变形变中的应用
1. Xuejiao Wang, Wenjiang Qiang, Guogang Shu, Junwei Qiao, Yucheng Wu, The ageing behavior and the correlation between hardness and coercivity of Cu-rich reactor pressure vessel model steels, Journal of Magnetism and Magnetic Materials, 2021, 527[1]: 167698
2. Na Ta, Muhammad U.B., Ines H. et al., Simulation of the θ’ precipitation process with interfacial anisotropy effects in Al-Cu alloys, Materials, 2021, 14, 1280.
3. Xu Cheng, Meng Liu, Jingyun Yin, Chuansheng Ma, Yanzhu Dai, Deyu Wang, Shaobo Mi, Wenjiang Qiang, Bingxin Huang, Yanan Chen, Regulating Surface and Grain-Boundary Structures of Ni-Rich Layered Cathodes for Ultrahigh Cycle Stability, Small, 2020, 16: 0-1906433
4. Lv, Yeting; Cheng, Xu; Qiang, Wenjiang; Huang, Bingxin ; Improved electrochemical perform ances of Ni-rich LiNi0.83Co0.12Mn0.5O2 by Mg-doping, Journal of Power Sources, 2020, 450: 0-227718
5. Yuren Wen, Xiao Chen, Xia Lu, Lin Gu. Interface charges boosted ultrafast lithiation in Li4Ti5O12 revealed by in-situ electron holography. Journal of Energy Chemistry. 2018, 27, 1397–1401.
6. Yuren Wen, Dongdong Xiao, Xiaozhi Liu and Lin Gu. Microstructure dynamics of rechargeable battery materials studied by advanced transmission electron microscopy. NPG Asia Materials. 2017, 9, e360
7. Xitao Hu, Wenjiang Qiang, Bingxin Huang, Surface layer design of cathode materials based on mechanical stability towards long cycle life for lithium secondary batteries, Energy Storage Materials, 2017, 8: 141-146
8. Xuejiao Wang, Wenjiang Qiang. Magnetic evaluation of hardening of thermal aged Cu-rich RPV steel. Journal of Nuclear Materials, 2016, 482:135-138.
9. 强文江,李亚坤,兰银辉,束国刚, 隔磁片用304型奥氏体不锈钢,金属世界,2016(4), 186: 25~28.
10. 段远刚,强文江,兰银辉,黄弋力,刘飞华,基于模拟实验装置的控制棒驱动机构移动线圈临界电流研究,核动力工程,2016, 37(1): 72-76.
1. 黄冰心,程续,王喆,强文江;一种在正极颗粒表面包覆钙钛矿结构材料的方法, CN201811400011.3
2. 黄冰心,程续,王喆,强文江;一种离子-电子混合导电石榴石结构包覆正极材料的方法, CN201811399996.2
3. 黄冰心,程续,强文江;一种核壳结构的镍钴铝酸锂正极材料的制备方法, 2018-10-31, 中国, CN201811291256.7
4. 强文江,束国刚,王集成;奥氏体不锈钢管内氧化物的磁性无损检测方法及装置,ZL 03109490.
5. 强文江,束国刚;奥氏体不锈钢管内部氧化物的磁性无损检测装置,ZL 2007101219942.
