菅永军 - 内蒙古大学 - 数学科学学院

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菅永军教授收藏完善纠错
内蒙古大学数学科学学院
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个人简介

菅永军，男，1974年2月出生，汉族，民盟盟员，内蒙古大学数学科学学院教授，博士生导师。 2016年荣获宝钢优秀教师奖、内蒙古自治区优秀科技工作者称号，2015年入选内蒙古自治区第五批“草原英才”，2014年被评为内蒙古自治区优秀研究生指导教师，2013年获内蒙古自治区高等学校“青年科技领军人才”，2012年内蒙古自治区新世纪“321人才工程”第二层次人选，2006年入选中山大学第三层次“百人计划”，2010年获内蒙古自治区自然科学奖三等奖，2009年第七届内蒙古自治区青年科技奖获得者，国家自然科学基金数理学部通讯评审专家，内蒙古自治区数学学会常务理事，中国力学学会会员，中国数学学会会员，受聘内蒙古大学学校、学部和教授三级委员会委员，担任本专业包括Phys. Fluids, Int. J. Heat Mass Transfer, J. Non-Newtonian Fluid Mech.等多个国外著名杂志审稿人。近年来发表或接收科学论文70多篇，其中SCI收录50余篇。教育背景 ➢ 内蒙古师范大学数学系,本科 | 1991.9-1995.7 ➢ 内蒙古大学数学系,硕士研究生 | 1995.9-1998.7 ➢ 中国科学院力学研究所,博士研究生 | 1998.9-2003.1 工作经历 ➢ 国家海洋局第一海洋研究所,博士后 | 2003.3-2005.12 ➢ 中山大学工学院,副教授、硕士生导师 | 2006.6-2009.4 ➢ 内蒙古大学数学科学学院,教授、硕士生导师 | 2009.6-2011.6 ➢ 内蒙古大学数学科学学院,教授、博士生导师 | 2011.6-至今学术活动 ➢ 美国Cornell大学分子与化学工程学院, 公派访问学者| 2012.9-2013.9 主讲课程 ➢ 本科生《常微分方程》、《数学物理方程》 ➢ 研究生《现代数学方法进阶》、《高等流体力学》、《微纳尺度流体力学》等项目经历本人主持的项目有: ➢ 主持国家自然科学基金面上项目:微纳通道中物理特性随压力变化的流体的电动能量转化 (项目编号：11772162)，时间：2018.01-2021.12； ➢ 主持国家自然科学基金面上项目:垂向磁场作用下微通道内的电渗流动与传热研究(项目编号：11472140)，时间：2015.01-2018.12； ➢ 主持国家自然科学基金地区项目:两层流体Faraday 界面波动力学研究(项目编号：11062005)，时间：2011.01—2013.12； ➢ 主持内蒙古自然基金面上项目:柔性纳米管道中电渗流动(项目编号：2016MS0106)，时间：2016.01—2018.12； ➢ 主持内蒙古自治区党委组织部:2015年入选内蒙古自治区第五批“草原英才”(项目编号：12000-12102013)，时间：2015.11—2018.11； ➢ 主持内蒙古自治区高等学校“青年科技领军人才”项目:微流体管道中非牛顿流体的非定常电渗流动(项目编号：NJYT-13-A02)，时间：2013.01-2014.12； ➢ 主持内蒙古自然科学基金项目项目:双频垂直激励两层流体的 Faraday 界面波(项目编号：2010BS0107)，时间：2010.01-2012.12； ➢ 主持中科院力学所LNM国家重点实验室开放基金项目:微管道中具有自由面的非牛顿流体的电渗流动(无批准号)，时间：2012.01-2013.12； ➢ 主持中科院力学所LNM国家重点实验室开放基金项目:微管道内牛顿流体的电磁驱动流动(无批准号)，时间：2015.01-2015.12； ➢ 主持内蒙古大学学科带头人科研启动基金:流体力学理论、数值计算及工程应用研究(项目编号：Z20080211)，时间2010.01-2012.12。博士研究生主持的项目有： ➢ 长龙主持内蒙古自治区研究生科研创新计划项目与内蒙古大学提升综合实力研究生科研创新能力提升项目:柔性微纳通道的毛细填充问题(批准号：11200-12110201)，2016.7-2017.7 ➢ 李凤琴主持内蒙古自治区研究生科研创新计划项目与内蒙古大学提升综合实力研究生科研创新能力提升项目:垂向磁场作用下柔性微管道內流体的电渗流研究(批准号：1402020201318)，2015-2016 ➢ 布仁满都拉主持内蒙古自治区研究生科研创新计划项目与内蒙古大学提升综合实力研究生科研创新能力提升项目:电磁场作用下微管道间非牛顿流体的流动(批准号：1402020201204)，2013.5-2014.5 硕士研究生主持的项目有： ➢ 苏洁主持内蒙古自治区研究生科研创新计划项目与内蒙古大学提升综合实力研究生科研创新能力提升项目: 微管道内非牛顿流体电渗流动(批准号：1402020201-025),2013.5-2014.5 ➢ 此外，还有四名硕士生主持内蒙古大学提升综合实力国际/国内学术会议项目本科生主持的创新创业项目有： ➢ 2016年，指导国家级大学生创新训练项目：圆柱形柔性纳米管道内的电渗流动及传热(批准号：201610126026)，项目参加人：菅永军，赵晋祎，闫芷君，刘宁，尹思豪； ➢ 2015年，指导国家级大学生创新训练项目：水平振动平板间非牛顿流体的低雷诺数流动(批准号：201510126023)，项目参加人：菅永军，邓琰玲，张艳、李巾、殷哲； ➢ 2014年，指导国家级大学生创新训练项目：磁场作用下平行板微管道间的周期电渗流动(批准号：201410126026)，项目参加人：菅永军，李鑫宇，王帅、安星宇、董路；培养研究生情况指导博士研究生： 2017年刘勇波 2016年杨春红(在职,内蒙古大学数学科学学院教师) 解智勇 2015年长龙(在职,内蒙古财经大学统计与数学学院教师) 2014年李凤琴(在职,内蒙古大学数学科学学院教师) 2013年布仁满都拉(在职,赤峰学院数学与统计学院教师),已毕业 2012年赵光普(在职,内蒙古大学交通学院教师) ,已毕业,就业于内蒙古工业大学理学学院指导硕士研究生： 2017年王爽楚鑫郝娜 2016年许丽娜王泽华 2015年李荟翠陈星宇郑佳璇 2014年刘勇波邢靖楠 2013年杨丽清高崇华王琳 2012年解智勇佀冬晴刘雅鹏李顺香 2011年苏洁娜仁李晓霞尹泽 2010年孙艳军包丽平孙丽霞 2009年长龙(高校教师在职研究生) 2008年谢智硕(中山大学工学院培养的研究生) 研究生获奖情况 2016年国家奖学金: 刘勇波内蒙古自治区奖学金:邢靖楠 2015年国家奖学金: 杨丽清高崇华 2014年国家奖学金: 解智勇第四届校长励学奖优秀学生奖: 苏洁第九届中国青少年科技创新奖: 苏洁 2013年国家奖学金: 苏洁 2012年国家奖学金: 苏洁李晓霞孙丽霞

研究领域

微流体力学,应用数学

近期论文

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2017年 [1] Zhiyong Xie, Yongjun Jian*, Entropy generation of two-layer magnetohydrodynamic electroosmotic flow through microparallel channels, Energy, 2017, 139, 1080–1093. (SCI) [2] Zhaodong Ding, Yongjun Jian*, Liangui Yang, Analytical investigation of electrokinetic effects of micropolar fluids in nanofluidic channels, Phys. Fluids, 2017, 29, 082008. (SCI) [3] Huicui Li, Yongjun Jian*, Dispersion for periodic electro-osmotic flow of Maxwell fluid through a microtube, Int. J. Heat Mass Transfer, 2017, 115, 703–713. (SCI) [4] Jingnan Xing, Yongjun Jian*, Steric effects on electroosmotic flow in soft nanochannels, Meccanica, DOI: 10.1007/s11012-017-0703-4. (SCI) [5] Zhiyong Xie, Yongjun Jian*, Rotating electromagnetohydrodynamic flow of power-law fluids through a microparallel channel, Colloids Surf. A: Physicochem. Eng. Aspects, 2017, 529, 334–345. (SCI) [6] Yongjun Jian*, Fengqin Li, Yongbo Liu, Long Chang, Quansheng Liu, Liangui Yang, Electrokinetic energy conversion efficiency of viscoelastic fluids in a polyelectrolyte-grafted nanochannel, Colloids and Surfaces B: Biointerfaces, 2017, 156, 405–413. (SCI) [7] Fengqin Li, Yongjun Jian*, Zhiyong Xie, Yongbo Liu, Quansheng, Liu, Transient alternating current electroosmotic flow of the Jeffrey fluid through a polyelectrolyte-grafted nanochannel. RSC Advances, 2017, 7, 782–790. (SCI) [8] Guangpu Zhao, Yongjun Jian*, Fengqin Li, Electromagnetohydrodynamic flow and heat transfer of nanofluid in a parallel plate microchannel, Journal of Mechanics, 2017, 33, 115–124 (SCI) [9] Fengqin Li, Yongjun Jian*, Zhiyong Xie, Lin Wang, Electromagnetohydrydynamic flow of Powell-Eyring fluids in a narrow confinement. Journal of Mechanics, 2017, 33, 225–233 (SCI) [10]Mandula Buren, Yongjun Jian*, Long Chang, Fengqin Li, Quansheng Liu, Combined electromagnetohydrodynamic flow in a microparallel channel with slightly corrugated walls, Fluid Dynamics Research, 2017, 49, 025517 (SCI) [11]Mandula Buren, Yongjun Jian*, Long Chang, Quansheng Liu, Guangpu Zhao, AC magnetohydrodynamic slip flow in microchannel with sinusoidal roughness, Microsystem Technologies, 2017, 23, 3347–3359 (SCI) 2016年 [1] Fengqin Li, Yongjun Jian*, Long Chang, Guangpu Zhao, Liangui Yang, Alternating current electroosmotic flow in polyelectrolyte-grafted nanochannel,Colloids and Surfaces B: Biointerfaces 2016, 147, 234–241. (SCI) [2] Guangpu Zhao, Yongjun Jian*, Fengqin Li, Heat transfer of nanofluids in microtubes under the effects of streaming potential, Applied Thermal Engineering,2016, 100, 1299–1307. (SCI) [3] Long Chang, Yongjun Jian∗, Mandula Buren, Yanjun Sun, Electroosmotic flow through a microparallel channel with 3D wall roughness, Electrophoresis, 2016, 37(3), 482–492. (SCI) [4] Guangpu Zhao, Yongjun Jian*, Fengqin Li, Streaming potential and heat transfer of nanofluids in parallel plate microchannels, Colloids Surf. A: Physicochem. Eng. Aspects 2016, 498, 239–247. (SCI) [5] Lin Wang, Yongjun Jian*, Quansheng Liu, Fengqin Li, Long Chang, Electromagnet hydrodynamic flow and heat transfer of third grade fluids between two micro-parallel plates, Colloids Surf. A: Physicochem. Eng. Aspects 2016, 494, 87–94. (SCI) [6] Guangpu Zhao, Yongjun Jian*, Fengqin Li, Streaming potential and heat trqansfer of nanofluids in microchannels in the presence of magnetic field, J. Magn. Magn. Mater., 2016,407, 75–82.(SCI) [7] Long Chang, Yongjun Jian∗, Mandula Buren, Quansheng Liu, Yanjun Sun, Electroosmotic Flow Through a Microtube with Sinusoidal Roughness, Journal of Molecular Liquids, 2016, 220, 258–264. (SCI) [8] Lin Wang, Yongjun Jian*, Fengqin Li, The flow of micropolar fluids through a corrugated microparallel channel, The European Physical Journal Plus, 2016, 131(9), 338-349. (SCI) [9] Yufei, Wei, Haijun Wang, Yongjun Jian∗,Pressure Oscillating Flow in Corrugated Parallel Channel, Commun. Theor. Phys., 2016,, 66(6), 694–700. (SCI) [10]Dongqing Si, Yongjun Jian*, Long Chang, Quansheng Liu, Unsteady rotating electroosmotic flow through a slit microchannel, Journal of Mechanics, 2016, 32(5), 603–611(SCI) [11] Zhaodong Ding, Yongjun Jian∗, Liangui Yang, Time periodic electroosmotic flow of micropolar fluids through a microparallel channel, Appl. Math. Mech. (English Edition), 2016, 37(6), 769–786. (SCI) [12] 邢靖楠，菅永军*，矩形纳米管道中的电动能量转换效率，应用数学和力学，2016, 37(4), 363–372. (CSCD核心) [13] 长龙，刘全生*，菅永军，布仁满都拉，孙艳军，具有正弦粗糙度的环形微管道中脉冲流动，应用数学和力学，2016, 37(10), 1118–1128. (CSCD核心) [14] 刘勇波，菅永军*，具有聚电解质层圆柱形纳米通道中的电动能量转换效率，物理学报，2016, 65(8), 084704. (SCI) 2015年 [1] Yongjun Jian*,Transient MHD heat transfer and entropy generation in a microparallel channel combined with pressure and electroosmotic effects, Int. J. Heat Mass Transfer, 2015, 89, 193–205. (SCI) [2] Yongjun Jian*,Dongqing Si,Long Chang, Quansheng Liu, Transient rotating Electromagnetohydrodynamic micropumps between two infinite microparallel plates, Chem. Eng. Sci. 2015, 134, 12–22. (SCI) [3] Yongjun Jian*,Long Chang, Electromagnetohydrodynamic (EMHD) micropumps under a spatially non-uniform magnetic field, AIP Advances, 2015, 5, 057121. (SCI) [4] Dongqing Si, Yongjun Jian*, Electromagnetohydrodynamic (EMHD) micropump of Jeffrey fluids through two parallel microchannels with corrugated walls, J. Phys. D: Appl. Phys. 2015, 48, 085501. (SCI) [5] Yapeng Liu, Yongjun Jian*, Quansheng Liu, Fengqin Li, Alternating current magnetohydrodynamic electroosmotic flow of Maxwell fluids between two micro-parallel plates, Journal of Molecular Liquids, 2015, 211, 784–791. (SCI) [6] Chonghua Gao, Yongjun Jian*, Analytical solution of magnetohydrodynamic flow of Jeffrey fluid through a circular microchannel, Journal of Molecular Liquids, 2015, 211, 803–811. (SCI) [7] Guangpu Zhao, Yongjun Jian*, Long Chang, Mandula Buren, Magnetohydrodynamic flow of generalized Maxwell fluids in a rectangular micropump under an AC electric field, J. Magn. Magn. Mater., 2015, 387,111–117. (SCI) [8] Mandula Buren, Yongjun Jian∗, Electromagnetohydrodynamic (EMHD) flow between two transversely wavy microparallel plates, Electrophoresis, 2015, 36, 1539–1548. (SCI) [9] Shunxiang Li, Yongjun Jian∗, Zhiyong Xie, Quansheng Liu, Fengqin Li, Rotating electro-osmotic flow of third grade fluids between two microparallel plates, Colloids Surf. A: Physicochem. Eng. Aspects 2015,470, 240–247. (SCI) [10]刘雅鹏,菅永军*,布仁满都拉,粗糙微管道壁面振荡的磁流体流动,内蒙古大学学报(自然科学版), 2015, 46, No.4, 363–369.(CSCD扩展) [11] 杨丽清,菅永军*,平行板微管道内的Jeffrey流体的电磁流动,微纳电子技术, 2015, 52 (10) 639–648. 2014年 [1] Yongjun Jian*, Jie Su, Long Chang, Quansheng Liu, Guowei He, Transient electroosmotic flow of general Maxwell fluids through a slit microchannel, Z.A.M.P., 2014, 65, No.3, 435- 447. (SCI) [2] Mandula Buren; Yongjun Jian*; Long Chang, Electromagnetohydrodynamic flow through a micro- parallel channel with corrugated walls, J. Phys. D: Appl. Phys. 2014, 47, 425501. (SCI) [3] Zhiyong Xie, Yongjun Jian*, Rotating electroosmotic flow of power-law fluids at high zeta potentials, Colloids Surf. A: Physicochem. Eng. Aspects, 2014, 461, 231-239. (SCI) [4] Long Chang, Yongjun Jian*, Jie Su, Ren Na, Quansheng Liu, Guowei He, Nonlinear interfacial waves in a circular cylindrical container subjected to a vertical excitation, Wave Motion, 2014, 51, 804-817. (SCI) [5] Long Chang, Yongjun Jian*, Yanjun Sun, Jie Su, Quansheng Liu, The Floquet analysis of liquid interface wave in a double-frequency excited cylindrical container, Appl. Mech. Mater., 2014, 541-542, 505-513. (EI) [6] Ze Yin, Yongjun Jian*, Long Chang, Ren Na, Quansheng Liu, Transient electro-osmotic flow of generalized Maxwell fluids through a micro-channel and a micro-tube, Appl. Mech. Mater., 2014, 548-549, 216-223. (EI) [7] 长龙,菅永军*,刘全生,娜仁,布仁满都拉,圆柱型容器中垂直激励的弱黏性流体界面波,内蒙古大学学报(自然科学版), 2014, 45, No.4, 353-359.(CSCD扩展) 2013年 [1] Jie Su, Yongjun Jian*, Long Chang, Quansheng Liu, Transient electro-osmotic and pressure driven flows of two-layer fluids through a slit microchannel, Acta Mech. Sinica 2013, 29(4), 534–542. (SCI) [2] Yanjun Sun, Yongjun Jian*, Long Chang, Quansheng Liu, Thermally fully developed electroosmotic flow of power-law fluids in a circular microchannel, J. Mech., 2013, 29(4), 609-616. (SCI) [3] Ren Na, Yongjun Jian*, Long Chang, Jie Su, Quansheng Liu, Guowei He, Transient mixed electro-osmotic/pressure driven flows through a microannulus,Open J. Fluid Dynamics, 2013, 3, 50-56. [4] Liping Bao, Yongjun Jian*, Long Chang, Jie Su, Haiyan Zhang, Quansheng Liu, Time periodic Electroosmotic flow of the generalized Maxwell fluids in a semicircular microchannel, Commun. Theor. Phys., 2013, 59, 615-622.(SCI) [5] Lixia Sun, Yongjun Jian*,Long Chang, Haiyan Zhang, Quansheng Liu, Alternating current electro-osmotic flow of the Maxwell fluids through a circular micro-pipe,J. Mech., 2013, 29, 233-240. (SCI) [6] 刘全生，菅永军*,长龙,杨联贵，柱形容器中理想流体双频驱动Faraday界面波的不稳定性，内蒙古大学学报(自然科学版)，2013 44(4), 362-366. (CSCD扩展) 2012年 [1] Quansheng Liu, Yongjun Jian*, Long Chang, Liangui Yang, Alternating current (AC) electroosmotic flow of generalized Maxwell fluids through a circular microtube,Int. J. Phys. Sci. 2012, 7(45), 5935-5941. [2] Xiaoxia Li, Ze Yin, Yongjun Jian*, Long Chang, Jie Su, Quansheng Liu, Transient electro-osmotic flow of generalized Maxwell fluids through a microchannel, J. Non-Newtonian Fluid Mech. 2012, 187-188, 43–47. (SCI) [3] Jie Su, Yongjun Jian*, Long Chang, Thermally fully developed electroosmotic flow through a rectangular microchannel, Int. J. Heat Mass Transfer, 2012, 55, 6285–6290. (SCI) [4] 长龙，菅永军*，平行板微管道间Maxwell流体的高Zeta势周期电渗流动，物理学报, 2012, 61 (12), 124702.(SCI) [5] Shuyan Deng, Yongjun Jian*, Yuanhong Bi, Long Chang, Haijun Wang , Quansheng Liu, Unsteady electroosmotic flow of power-law fluid in a rectangular microchannel. Mech. Res. Commun., 2012, 39, 9-14. (SCI) 2011年 [1] Quansheng Liu, Yongjun Jian*, Liangui Yang, Time periodic electroosmotic flow of the generalized Maxwell fluids between two micro-parallel plates, J. Non-Newtonian Fluid Mech. 2011, 166, 478-486, (SCI) [2] Quansheng Liu, Yongjun Jian*, Liangui Yang, Alternating current electroosmotic flow of the Jeffreys fluids through a slit microchannel, Phys. fluids, 2011, 23, 102001. (SCI) [3] Yongjun Jian*, Quansheng Liu, Huizong Duan, Long Chang, Liangui Yang, Time periodic EOF of Jeffrey fluid in a circular microtube, The Sixth Int. Conf. Fluid Mech. (ICFM6), 2011, 06.30-07.03, 616-618, Guang Zhou, Symposium Report. (EI) [4] Yongjun Jian*, Quansheng Liu, Liangui Yang. AC electroosmotic flow of generalized Maxwell fluids in a rectangular microchannel, J. Non-Newtonian Fluid Mech. 2011, 166, 1304-1314.(SCI) 2010年 [1] Yongjun Jian*, Liangui Yang, Quansheng Liu, Time periodic electro-osmotic flow through a microannulus, Phys. fluids, 2010, 22, 042001. (SCI) [2] Jieshuo Xie, Yongjun Jian*, Liangui Yang, Strongly nonlinear internal soliton load on a small vertical circular cylinder in two-layer fluids, Appl. Math. Modeling, 2010, 34, 2089-2101. (SCI) 2009年 [1] Yongjun Jian*, Qingyong Zhu, Jie Zhang, Yanfeng Wang, Third Order Approximation to Capillary Gravity Short Crested Waves with Currents, Appl. Math. Modeling, 2009, 33, 2035-2053. (SCI) [2] Yongjun Jian*, Jie Zhang, Quansheng, Liu, Yanfeng Wang, Effect of Mesoscale eddies on underwater sound propagation, Appl. Acoust., 2009, 70, 432-440. (SCI) 2008年及以前 [1] Yongjun Jian*, Jiemin Zhan, Qingyong Zhu, Short crested wave–current forces around a large vertical circular cylinder, Eur. J. Mech. B/Fluids, 2008, 27(3), 346-360.(SCI) [2] YongjunJian*, Xuequan E, Jie Zhang, Capillary effect on the vertically excited surface wave in a circular cylindrical vessel. Appl. Math. Mech. -Engl., 2006, 27(2), 227-234. (EI) [3] 菅永军*，鄂学全，张杰，圆柱形容器中竖直激励表面波的毛细影响，应用数学和力学, 2006, 27(2), 204-210. [4] Yongjun Jian*, Xuequan E, Jie Zhang, Damping of vertically excited surface waves in a weakly viscous fluid. Appl. Math. Mech. -Engl., 2006, 27(3), 417-424. (EI) [5] 菅永军*，鄂学全，张杰，弱粘性流体中垂直激励表面波的阻尼效应，应用数学和力学, 2006, 27(3), 372-378. [6] 菅永军*，张杰，贾永君，海洋锋区的一种声速计算模式及其在声传播影响中的应用，海洋科学进展，2006, 24(2), 166-172. [7] YongjunJian*, Xuequan E, Instability Analysis of Nonlinear Surface Waves in a Circular Cylindrical Container Subjected to a Vertical Excitation. Eur. J. Mech. B/Fluids, 2005, 24(6), 683-702. (SCI) [8] Yongjun Jian*, Xuequan E, Vertically forced surface wave in weakly viscous fluids bounded in a circular cylindrical vessel. Chin. Phys., 2004, 53(8), 1191-1200. (SCI) [9] Yongjun Jian*, Xuequan E, Jie Zhang, Jun-min Meng, Surface waves in a vertically excited circular cylindrical container. Chin. Phys., 2004, 53(10), 1623-1630. (SCI) [10]Yongjun Jian*, Xuequan E, Instability of the vertically forced surface wave in a circular cylindrical container. Chin. Phys., 2004, 53(10), 1631-1638. (SCI) [11] Yongjun Jian*, Xuequan E, Jie Zhang, Junmin Meng, The effect of the surface tension of the mode selection of the vertically excited surface wave in a circular cylindrical vessel. Chin. Phys., 2004, 53(12), 2013-2020. (SCI) [12]Yongjun Jian*, Xuequan E, Liulin Feng, Surface wave patterns and instability in a vertically oscillating circular cylindrical vessel，Journal of Hydrodynamics, Ser. B, 2004, 16(5), 640- 645. [13] 菅永军*，鄂学全，刚性充液容器内竖直激励表面波研究进展，力学进展，2004, 34(1), 61-76. [14] 菅永军*，鄂学全，垂直激励圆柱形容器中的表面波特性研究，应用力学学报, 2004, 21(1), 5-12. [15] Jian Yongjun*, E Xuequan, Bai Wei, Nonlinear Faraday waves in a parametrically excited circular cylindrical container. Appl. Math. Mech.-Engl., 2003, 24(10), 1194-1207. (SCI) [16] 菅永军*，鄂学全，柏威，参数激励圆柱形容器中的非线性Faraday波，应用数学和力学, 2003, 24(10), 1057-1068. [17] 菅永军*，鄂学全，垂直激励圆柱形容器中的表面波结构，水动力学研究与进展A辑，2003, 18(2), 135-147.

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