(1)电气设备稳定性、可靠性分析仿真;
(2)多物理场仿真和测试研究;
(3)电磁兼容测试与分析;
(4)轨道交通电气线路智能诊断与远程监控系统研究
1、Dong,L;Wang,G;Qi,X.Power Transformer Winding Deformation Diagnosis Based on the Sum of Two-Way Shortest Distance[J].IEEJ TRANSACTIONS ON ELECTRICAL AND ELECTRONIC ENGINEERING,2023,18(12):1869-1875.
2、L. Dong, H. Wu, S. Sun. Research on the Influence of Projectile Width on the Efficiency of Reconnection Electromagnetic Launchers [J]. IEEE Transactions on Plasma Science ,2022,50(2):496-501.
3、L. Dong, S. Sun, H. Wu. Study of Capacitor Parameters on the Optimal Trigger Position of Multipole Field Reconnection Electromagnetic Launcher [J]. IEEE Transactions on Plasma Science, 2021,49(7):2153-2160.
4、L. Dong, H. Wu, S. Sun, and J. Liu. Analysis of the Influence of the Number of Coil Pairs Per Wing on Multiwing Reconnection Electromagnetic Launcher [J]. IEEE Transactions on Plasma Science, 2021,49(10):3251-3256.
5、Liang Dong, Feihong Lin, Qinggao Fu, Yuerui Wei, and Senliang Li.Research on Structure Design of Multipole Field Reconnection Electromagnetic Launch Mode Drive Coil [J].IEEE TRANSACTIONS ON PLASMA SCIENCE ,2020,48(1)305-310.
6、Liang Dong, Senliang Li , Huajun Xie, Qiumin Zhang, and Jing Liu. Influence of Capacitor Parameters on Launch Performance of Multipole Field Reconnection Electromagnetic Launchers [J].IEEE TRANSACTIONS ON PLASMA SCIENCE ,2018,46(7)2642-2646.
7、Liang Dong,Senliang Li.Multipole Field Reconnection Electromagnetic Launcher [J].IEEE TRANSACTIONS ON PLASMA SCIENCE ,2018,46(2)458-462.
8、Dong Liang,Xu qingying,et al.Simulation and Experimental Investigation of a High-Temperature Superconducting Inductive Pulsed Power Supply with Time Delay Effect of the Secondary Side[J].J.Physica C, 2017,541,16-21.
9、DONG Liang, CHEN HanJun, GAN YingJie, WANG Yu, DONG Xiang, PENG ShuJie, Thermoelectric properties of tungsten ceramics prepared from nanopowder precursors, Chin. Sci. Bull, 58,2924-2926,2013
10、廖骁勇(本人硕士研究生),严仲明,聂新毅,王豫,董亮, 基于YBCO的变压器型双面超导薄膜限流器[J].低温物理学报,2017,1(39)50-54.
11、江明阳(本人硕士研究生),王豫,董亮,严仲明,范光程,感应型直线电磁驱动器耦合特性及控制优化研究.微电机,2017,10(50)18-22.
12、李海涛,王豫,董亮等.基于超导储能电感的meat-grinder脉冲电源[J].高电压技术, 2014, 40(4):1127-1133.
13、Xiang Dong, Haiqing Wang, Zhongqiu Hua, Shujie Peng,Liang Dong, Yu Wang, Thermoelectric properties of WO3-based ceramics doped with Co2O3, J. Mater. Sci. Mater. Electron,23,1210-1214.,2013
14、Xiang Dong*, Yingjie Gan, Liang Dong, Shujie Peng, Yu Wang, Improvement of thermoelectric properties of WO3 ceramics by NiO addition, J. Mater. Sci. Mater. Electron, 24,4316-4320,2013
15、Xiang Dong, Yingjie Gan, Yu Wang, Shujie Peng,Liang Dong, Effect of La2O3 on high-temperature thermoelectric properties of WO3 J. Alloys Compd, 581,52–55.,2013
16、Xiang Dong, Yingjie Gan, Liang Dong, Shujie Peng,Yu Wang,Enhanced thermoelectric properties of WO3 by adding SnO2,J. Mater. Sci. Mater. Electron, 24,4494-4498,2013
17、Yingjie Gan, Xiang Dong, Shujie Peng, Liang Dong, Yu Wang, Microstructure and thermoelectric properties of tungsten trioxide ceramics doped with a low amount of terbium dioxide,J. Mater. Sci. Mater. Electron, 24,4001-4007,2013
18、Haiqing Wang, Xiang Dong, Shujie Peng, Liang Dong, Yu Wang, Improvement of thermoelectric properties of WO3 ceramics by ZnO addition, J. Alloys Compd, 527,204-209,2012
19、Haiqing Wang, Zhongqiu Hua, Shujie Peng, Xiang Dong, Liang Dong, Yu Wang, Effect of CeO2 on the thermoelectric properties of WO3-based ceramics, Ceramics International, 38 ,1133-1137,2012
20、Haiqing Wang, Yingjie Gan, Xiang Dong, Shujie Peng,Liang Dong, Yu Wang,Thermoelectric properties of Ti-doped WO3 ceramics,J. Mater. Sci. Mater. Electron,23,2229-2234,2012
21、Liang Dong, Yu Wang, Yong Zhao, The study on electrical behavior of Gd2O3-WO3 complex ceramics at high temperature, material letter, 61 (2007) :2105~2108 .
22、Liang Dong, Han-jun Chen, Yu Wang,De-Zhu Li,Tong-Ye Li and Yong Zhao. Influence of sintering temperature on the electrical properties of Ce-doped WO3 ceramics prepared by nanopowders, J.phys.D:appl. Phys 40(2007):2573~2578.
23、Zhu Yingwei, Wang Yu, Yan Zhongming, Dong Liang, Xie Xiaofang and Li Haitao. Multipole Field Electromagnetic Launcher[J]. IEEE Trans. on Mag., 2010, 46(7): 2622-2627.(SCI检索:20102613034115)
24、朱英伟,严仲明,董亮,王豫.电容器参数对感应线圈炮的影响分析[J].高电压技术, 2009,35(12):3054-3059.(EI检索:20101512840582)
25、朱英伟,严仲明,谢晓芳,董亮,王豫.磁阻型线圈发射减速力研究[J].电工电能新技术, 2010,29(2):62-66.
26、李海涛,朱英伟,邵慧,董亮,严仲明,胡基士,王豫.超导储能磁体对电感性负载放电研究[J].电工电能新技术, 2010, 29(4):27-30.
27、李海涛,董亮,邵慧,朱英伟,王豫.脉冲功率系统储能型超导脉冲变压器放电研究[J].低温与超导, 2011, 39(3):45-48.
28、李海涛,董亮,严仲明,朱英伟,方万民,胡基士. 激光位置检测技术在电磁弹射中的应用设计,计算机测量与控制, 2010,18(2):316-319.
29、李峰,严仲明,董亮,闫强华,朱英伟,王豫.小型NbTi磁体的失超传播特性研究[J].低温与超导,2009, 37(4):37-40.
30、李峰,董亮,严仲明,肖广大,闫强华,王豫. 小型超导磁体的快速放电研究.电工电能新技术,2009,28(3):36-39.
31、董亮,赵勇,王豫,李统业,李德柱. 前驱体纳米化后Ce掺杂WO3陶瓷的电学行为, 北京科技大学学报增刊. 28(2006) :220~222.
32、董亮,王豫,严仲明,李统业,李德柱,固相合成法制备ZrW2O8陶瓷及其电学行为研究, 功能材料,2009,40(8):1282~1284.
33、董亮,王豫,李德柱,李统业,严仲明,Ce掺杂WO3薄膜的电学性质研究,西南交通大学学报,2009,44(6):963~967.
34、Zhong-Qiu Hua, Liang Dong,HaiQing Wang,Shujie Peng,Yu Wang, Varistor behavior study in undoped tungsten trioxide ceramics, Physica B,2011,doi.org/10.1016/j.physb.2011.04.033.
35、Li Tong-ye, Wang Yu, Dong Liang. Novel Pr6O11 varistor, J.Cent.Sorth Univ. Technol. (2007): 42~46.
36、Tong-Ye Li, Hong-Wang Zhao, Liang Dong, Na Guo and Yu Wang, Novel varistor material based on terbium oxide, J.phys. D:Appl Phys. 2009,42:1~4.
37、Li, T. Y., Wang, H. Q., Hua, Z. Q., Dong, L., Zhao, H. W., Wang, Y. Densification and grain growth of CuO-doped Pr6O11 varistors. Ceramics International. 2010,36(5):1511~1516.
38、Zhongqiu Hua, Yu Wang, Haiqing Wang, Liang Dong, NO2 sensing properties of WO3 varistor-type gas sensor, Sensors and Actuators B-Chemical. 2010,150:588~593.
39、魏钦伟,胡基士,董亮,严仲明,朱英伟,王豫.基于ANSYS的脉冲超导磁体电磁结构耦合分析[J].科学技术与工程, 2009,9(15):4395-4398.
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