[1] K. Guo , L. Zou* , L. Dai , et al.Micromagnetic Simulation of Saturation Magnetization of Nanocrystalline Soft Magnetic Alloys under High-Frequency Excitation [J].Symmetry,2022,14(7):1443-1443. [2] M. Ding, L. Zou*, L. Zhang, T. Zhao, and Q. Li, " Molecular Dynamics Simulation of the Influence of Functionalized Doping on Thermodynamic Properties of Cross-Linked Epoxy/Carbon Nanotube Composites," Diangong Jishu Xuebao/Transactions of China Electrotechnical Society, vol. 36, no. 23, pp. 5046-5057, 2021. [3] M. Yuan, L. Zou*, Z. Li, L. Pang, T. Zhao, L. Zhang, J. Zhou, P. Xiao, S. Akram, Z. Wang, and S. He., "A review on factors that affect surface charge accumulation and charge-induced surface flashover," Nanotechnology, vol. 32, no. 26, 2021. [4] Y. Lv, L. Zou*, H. Li, Z. Cehn, X. Wang, Y. Sun, L. Fang, T. Zhao, and Y. Zhang,., "Investigation of non-thermal atmospheric plasma for the degradation of avermectin solution," Plasma Science and Technology, vol. 23, no. 5, 2021. [5] Y. Sun, L. Zou*, Q. Liu, L. Dai, L. Zhang, and T. Zhao, "Research on Five-Loop Simplified Scaling Model for Dry-Type Air-Core Reactors with Inter-Turn Short Circuit Fault," IEEE Access, vol. 9, pp. 163707-163715, 2021. [6] Lin Shen, Liang Zou*, Mi Ding, et al. Investigation of physical properties of epoxy-functionalized graphene nanoplatelets composite coatings on DC-GIL insulators by molecular dynamics simulation[J]. Applied Surface Science 505 (2020) 144197 [7] Liang Zou, Jiale Wu, Zhiyun Han, et al. Influence of the External and Internal Factors on Saturation Magnetization Process for Nanocrystalline Alloy[J]. IEEE Transactions on magnetics, 2018, 54(10):7205708. [8] Rongzhao Jia, Liang Zou*, Tong Zhao, et al. Experimental study on inactivation of Escherichia coli by atmospheric pressure non-equilibrium plasma combined with photocatalysis[J]. Japanese Journal of Applied Physics, 2018.
[9] º«ÖÇÔÆ, ×Þ ÁÁ*, ÐÁ ÕÜ, µÈ. Ö±Á÷GIL¾øÔµ×Ó»·ÑõÊ÷Ö¬/̼ÄÉÃ׹ܸ´ºÏÍ¿²ã¹Ø¼üÎïÀíÐÔÄܵķÖ×Ó¶¯Á¦Ñ§Ä£Äâ[J]. µç¹¤¼¼Êõѧ±¨, 2018 [10] º«ÖÇÔÆ, ×Þ ÁÁ*, ÎéçìÀÖ, µÈ. ÍⲿºÍÄÚ²¿ÒòËضÔÄÉÃ×¾§ºÏ½ðkHz¼¶±¥ºÍ´Å»¯¹ý³ÌÓ°ÏìµÄ΢´Åѧ·ÖÎö[J]. µç¹¤¼¼Êõѧ±¨, 2018 [11] ËÎ êÏ, ×Þ ÁÁ*, ÕÅÐãȺ, µÈ. »ùÓÚ¿Õ¼ä´Å³¡·Ö²¼µÄ¸Éʽ¿ÕÐĵ翹Æ÷ÔѼä¶Ì·¼ì²â·½·¨[J]. µç¹¤¼¼Êõѧ±¨, 2019, 34(Ôö1): 105-117. [12] Zhiyun Han, Liang Zou*, Han Song, et al. Study on Optimal Structure of Three-Loop Simplified Scaling Model for Dry-Type Air-Core Reactors[J]. IEEE ACCESS, 2018. [13] Zou L*, Guo Y, Liu H, et al. A Method of Abnormal States Detection Based on Adaptive Extraction of Transformer Vibro-Acoustic Signals[J]. Energies, 2017, 10(12):2076. [14] ×Þ ÁÁ*, Áõ êÏ, Ðì ÁÁ, µÈ. »ùÓڸĽøÊƺ¯ÊýÏ¡Êè·ÖÁ¿·ÖÎöËã·¨µÄ±äѹÆ÷ÕñÉù×ÔÊÊÓ¦ÌáÈ¡·½·¨[J]. ¸ßµçѹ¼¼Êõ, 2018(2): 507-517. [15] ×Þ ÁÁ*, ÕÅÐãȺ, ÕÔ Í®, µÈ. ÓÀ´ÅÆ«ÖÃÐ͹ÊÕÏÏÞÁ÷Æ÷¶ÔϵͳÔÝ̬Îȶ¨ÐÔµÄÓ°Ïì[J]. ¸ßµçѹ¼¼Êõ, 2017, 43(2):594-601. [16]×Þ ÁÁ*,ÎéçìÀÖ,Áõ ÌÎ,µÈ.¼æ¹Ë¼¼Êõ¾¼ÃÐÔµÄÓÀ´ÅÆ«ÖÃÐ͹ÊÕÏÏÞÁ÷Æ÷ÓÅ»¯ÅäÖÃËã·¨[J]. ºþÄÏ´óѧѧ±¨£¨×Կư棩, 2016, 43(8):78-84. [17]×Þ ÁÁ*,ÎéçìÀÖ,Áõ ÌÎ,µÈ.´óÈÝÁ¿ÓÀ´ÅÆ«ÖÃÐ͹ÊÕÏÏÞÁ÷Æ÷µÄ¾¼ÃÐÔ·ÖÎöÓëÓÅ»¯[J]. µçÁ¦×Ô¶¯»¯É豸, 2016, 36(12):75-82. [18] ×Þ ÁÁ, »Æ½ðöÎ, ÁõÃÎçù. ÖÇÄܵçÍøÓÿռäµçÄܼ¯ÄÜת»»Æ÷[J]. µçÁ¦×Ô¶¯»¯É豸, 2015, 35(6):159-165. [19] ×Þ ÁÁ*, ¹¬ ÅÊ, ÕÅÀè. ¸Éʽ¿ÕÐĵ翹Æ÷¿Õ¼ä´Å³¡Ëõ±ÈÊÔÑéÓëÄ£Ðͼò»¯[J]. ¸ßµçѹ¼¼Êõ, 2014, 40(6):1675-1682. [20] ×Þ ÁÁ, Áõ ÌÎ, ÕÔ Í®. »ùÓÚ·§µçѹ»ò·§µçÁ÷µÄ HVDC »»Ïàʧ°Ü¹ÊÕÏÕï¶Ï[J]. µçÍø¼¼Êõ, 2014, 38(12):3453-3458. [21] ×Þ ÁÁ*, Ðí¼ÒÏì, ÀîÇìÃñ. ÓÀ´Å±¥ºÍÐ͹ÊÕÏÏÞÁ÷Æ÷µÄÓÀ´ÅÌåÎȶ¨ÐÔʵÑéÑо¿[J]. ¸ßµçѹ¼¼Êõ, 2012, 38(8):1901-1908. [22] ÕÅ Àè, ×Þ ÁÁ*, ÂÀöβý, µÈ. °ë²¨³¤ÊäµçÏß·µÄ¹¤ÆµÔÝ̬¹ýµçѹ[J]. ¸ßµçѹ¼¼Êõ, 2012, 38(10):2728-2734. [23] ×Þ ÁÁ, ÀîÇìÃñ, Ðí¼ÒÏì, µÈ. ¿¼ÂÇ©´ÅЧӦµÄÓÀ´Å±¥ºÍÐ͹ÊÕÏÏÞÁ÷Æ÷´Å·½¨Ä£ÓëʵÑéÑо¿[J]. Öйúµç»ú¹¤³Ìѧ±¨, 2012, 32(21):137-145. [24] ×Þ ÁÁ, ÀîÇìÃñ, Áõºé˳, µÈ. ´óÈÝÁ¿ÓÀ´Å±¥ºÍÐ͹ÊÕÏÏÞÁ÷Æ÷²ÎÊýÉè¼ÆÓëÓÅ»¯[J]. Öйúµç»ú¹¤³Ìѧ±¨, 2011, 31(9):105-112. [25] ×Þ ÁÁ, ÀîÇìÃñ, Áõºé˳, µÈ. ¼Æ¼°¹ÊÕÏÏÞÁ÷Æ÷ºÍ¹ÊÕϹý¶Éµç×èµÄ½ÓµØ¾àÀë±£»¤²¹³¥Ëã·¨[J]. µçÁ¦×Ô¶¯»¯É豸, 2009, 29(3):56-60. [26]×Þ ÁÁ,ÀîÇìÃñ,Áõºé˳,µÈ.ÓÀ´Å±¥ºÍÐ͹ÊÕÏÏÞÁ÷Æ÷µÄ¸ßѹ´óÈÝÁ¿»¯·ÖÎö[J]. ¸ßµçѹ¼¼Êõ, 2009, 35(10):2568-2574. |