李松晶科研成果

基本信息 团队成员 学生培养 教育教学 科学研究 论文专著 CV Publications ... 论文专著 CV Publications 新建主栏目 本课题组博士生应在四~五年之内完成学业 名称 本课题组支持博士生开展国际联合培养。 基本信息 名称 1970年9月出生，哈尔滨工业大学机电工程学院流体控制及自动化系，教授，博士生导师，系主任，1988年考入哈尔滨工业大学流体传动及控制专业攻读学士学位，1998年于哈尔滨工业大学流体传动及控制专业获得工学博士学位，后留校任教。现任中国机械工程学会流体传动与控制分会副主任委员、GFPS国际流体动力学会副主席（2016-2018）、中国机械工程学会高级会员、中国力学学会流体控制工程专业委员会委员、中国机械工程学会流体传动与控制分会国际交流工作委员会主席、黑龙江省机械工程学会液压与气动分会副秘书长、AAAS美国科学促进会会员、ASME美国机械工程师协会Koski Medal评奖委员会委员。多年从事流体控制及自动化领域教学及科研工作，获得全国多媒体教学软件大奖赛三等奖1项，黑龙江省多媒体教育软件评比一等奖1项、三等奖1项，在微流控芯片、微纳流控装置、计算流体力学等方面取得了先进的研究成果，发表学术论文160余篇，其中SCI收录42篇，EI收录论文88篇，出版教材及编著4部，申请发明专利18项，已获得授权发明专利14项，实用新型专利2项，获中国机械工业科技进步二等奖1项（排1）、黑龙江省自然科学奖三等奖1项（排1）、科技进步三等奖1项。 工作经历 名称 2008.04至今 哈尔滨工业大学 机械电子工程学科 博士生导师 2007.10至今 哈尔滨工业大学 机电工程学院流体控制及自动化系 教授 2003.8-2004.9 英国巴斯大学 动力传递及运动控制研究所 访问学者 2001.07-2007.10 哈尔滨工业大学 流体控制及自动化教研室 副教授 教育经历 名称 1992.07，哈尔滨工业大学 动力工程系 获工学学士学位 1998.07，哈尔滨工业大学 动力工程系 获工学博士学位 学术兼职 名称 中国机械工程学会流体传动与控制分会副主任委员 中国机械工程学会高级会员 AAAS美国科学促进会会员 GFPS 国际流体动力学会副主席（2016-2018） ASME Koski Medal Committee委员（2018-2020） ASME美国机械工程师协会会员 中国机械工程学会流体传动与控制分会国际交流工作委员会主席 黑龙江省机械工程学会液压与气动分会副秘书长 《Energies》特邀主编、《液压与气动》、《湖南电力》、《机电工程》期刊编委 荣誉获奖 名称 2008年 获校三八红旗手称号 2009年 被评为校优秀专兼职学生工作者标兵 2012年 被评为‘创先争优’优秀共产党员 2014年 被评为校优秀专兼职学生工作者 2015年 中国机械工程学会流体传动与控制分会先进个人 2019年 中国机械工程学会流体传动与控制分会先进个人 2022年 哈尔滨工业大学先进个人 基本信息 名称 Professor Songjing Li is the professor and Head of Department of Fluid Control and Automation at Harbin Institute of Technology(HIT), China. She is also a senior member of CMES, member of ASME and vice chairman of Fluid Power Transmission and Control Institution（FPTCI）. She started to teach and do research work at HIT from 1996 after her first year study for PhD there. The courses she gives include “Fluid Power Transmission”, "Introduction of Microfluidics Technology", "Wonderful World of Fluid Mechanics" and "Fuctional Fluids". Her research topics includes CFD for fluid power compenents and systems，microfluidic chips and systems，self-excited noise in hydraulic servo-valves and water generator from air. She has 4 books and more than 160 papers published. Education experience: 1992.09-1998.07, PhD student, Department of Fluid Power Transmission and Control, Harbin Institute of Technology, China 1988.09-1992.07, Undergraduate student, Department of Fluid Power Transmission and Control, Harbin Institute of Technology, China Working experience: 2008.04-present, PhD supervisor, Department of Fluid Control and Automation, Mechatronics School, Harbin Institute of Technology, China 2007.10-present, Professor, Department of Fluid Control and Automation, Mechatronics School, Harbin Institute of Technology, China 2003.08-2004.09, Visiting Scholar, Center for Power Transmission and Motion Control, University of Bath, UK 2001.07-2007.10, Associate Professor, Department of Fluid Control and Automation, Mechatronics School, Harbin Institute of Technology, China 1998.07-2001.07, Lecturer, Department of Fluid Control and Automation, Mechatronics School, Harbin Institute of Technology, China 1996.03-1998.07, teaching assistant, Department of Fluid Control and Automation, Mechatronics School, Harbin Institute of Technology, China 研究领域 名称 微流控系统(Microfluidics) 微流控芯片、微泵、气动微阀、微流控驱动装置研究 研究领域 名称 液压元件和系统中的计算流体力学（CFD for Hydraulic components and systems） 伺服阀前置级射流流场速度及压力分布的有限元分析，射流流场射流引起的高频自激压力脉动的有限元分析及其与射流流场结构参数之间特性关系的分析，伺服阀前置级射流流场与衔铁组件之间流固相互耦合的有限元分析。 研究领域 名称 液压元件与系统基本理论(Fundmentals of hydraulic components and systems) 伺服阀自激噪声产生机理研究，包括伺服阀单一频率高频自激噪声及伺服阀前置级射流流场压力脉动来源及产生机理的研究，伺服阀前置级射流流场剪切层振荡的产生机理及产生条件的研究，力矩马达衔铁组件振动与伺服阀前置级射流流场压力脉动相互耦合及作用机理的研究，自激噪声与伺服阀稳定性之间关系的研究。 伴随气泡和气穴的液压管路瞬态研究 研究领域 名称 功能流体应用(Application of functional fluids) 磁流体改善伺服阀性能的机理研究 磁流变流体阻尼器和减震器研究 科研项目 项目名称 伺服阀多场耦合分布参数数学模型的建模及自激振荡控制关键技术研究 项目来源 国家自然科学基金 开始时间 2017.01 结束时间 2020.12 项目经费 担任角色 负责 项目类别 纵向项目 项目状态 完成 简单介绍 自激振荡引起的伺服阀不稳定和失效问题是工业自动化等领域高性能电液伺服系统的严重隐患之一，伺服阀内部电磁、机械和流体之间多物理场耦合的不协调是引起伺服阀自激振荡的重要因素。伺服阀传统集中参数数学模型和单一物理场有限元模型无法同时体现伺服阀中各物理场的分布参数特性和相互耦合关系，因而难以用于伺服阀自激振荡预测和控制。本项目提出了基于伺服阀多场耦合分布参数数学模型的伺服阀自激振荡预测和控制方法，研究基于Galerkin截断和模态截取的伺服阀分布参数数学模型降阶方法，基于多场耦合分布参数模型对伺服阀自激振荡进行稳定域的仿真预测及试验验证，研究伺服阀自激振荡在线检测方法和控制器设计等关键技术，以达到预测和控制伺服阀自激振荡的目的。本项目的研究不仅能够提高伺服阀的稳定性及可靠性，促进我国各领域电液伺服技术的发展，而且能够为机电液一体化元件和系统分布参数建模及自激振荡研究奠定理论基础。 Books 名称 Songjing Li Xuling Liu Weiliang Jia Chapter: Pneumatic pump Encyclopedia of Microfluidics and Nanofluidics Springer 2013.06 Songjing Li Dong Xiang Wei Zhang, Easy way to read and understand hydraulic and pneumatic circuits, Chemical Engineering Publishing House, 2013.03 Songjing Li Qingyan Wang, Classical design examples of hydraulic systems, Chemical Engineering Publishing House, 2012.08 Songjing Li Dacheng Cong Hongzhou Jiang, Analyzing technics for principle circuit drawing of hydraulic systems, Chemical Engineering Publishing House, 2009.01 Songjing Li Jian Ruan Yongjun Gong, Introducton of Advanced hydraulic transmission technology, Publishing house of Harbin Institute of Technology, 2008.01 Papers 名称 Yunfeng Zhu, Songjing Li, Particle dispersion and mixing characteristics on the surface of a closed microchamber with magnetic artificial cilia, Microelectronic Engineering, 2022.04 Lujia Li, Huanhuan Li, Gang Kou, Songjing Li, Dynamic Camouflage Characteristics of a Thermal Infrared Film Inspired by Honeycomb Structure, Biomimatic Engineering, 2022.02 Sun Lin,Thomas Lehnert, Li Songjing, Martin A. M. Gijs, Bubble-enhanced ultrasonic microfluidic chip for rapid DNA fragmentation, Lab on a chip, 2022.01 Huanhuan Li, Tianhang Yang, Lujia Li, Songjing Li, A Camouflaged Film Imitating the Chameleon Skin with Color-Changing Microfluidic Systems Based on the Color Information Identification of Background, Journal of Bionic Engineering, 2021.10 Yayun Cheng, Jinghui Peng, Rui Yang, Songjing Li, Weight and performance optimization of rectangular staggered fins heat exchangers for miniaturized hydraulic power units using genetic algorithm, Case Studies in Thermal Engineering, 2021.10 Sun Lin,Muhammad Kashif Siddique, Lei Wang,Li Songjing, Mixing characteristics of a bubble mixing microfluidic chip for genomic DNA extraction based on magnetophoresis: CFD simulation and experiment, Electrophoresis, 2021(04) Xinbei LV, Jinghui Peng, Li Songjing. Mathematical modeling of an armature assembly in pilot stage of a hydraulic servo valve based on distributed parameters, Chinese Journal of Aeronautics, 2020(05) Bijan Krishna Saha,Jinghui Peng,Li Songjing. Numerical and Experimental Investigations of Cavitation Phenomena Inside the Pilot Stage of the Deflector Jet Servo-Valve, IEEE Access, 2020, 03 Xinbei Lv,Bijan Krishna Saha,You Wu,Li Songjing. Distributed parameters modeling for the dynamic stiffness of a spring tube in servo valves, Structural Engineering & Mechanics, 2020(08) Tianhang Yang, Ji Peng, Zhiquan Shu, Praveen K. Sekar, Songjing Li,* and Dayong Gao *. Determination of the Membrane Transport Properties of Jurkat Cells with a Microfluidic Device, Micromachines 2019, 10, 832; doi:10.3390/mi10120832 Weiliang Jia, Biao Zhang*, Songjing Li*. Progressive Multifocal Liquid Lenses Based on Asymmetric Freeform Surface Structure of Nonuniform Thickness Elastic Membranes with Different Constraints. International Journal of Optics, 2019, 12, 2032870, 12 pages(SCI, IF=1.67) Meng Chen, Nay Zar Aung, Songjing Li*, Changfang Zou. Effect of Oil Viscosity on Self-Excited Noise Production inside the Pilot Stage of a Two-Stage Electrohydraulic Servo-Valve [J]. ASME Journal of Fluids Engineering, 2019, 141(1): 011106. (SCI, IF=1.915) Weiliang Jia , Dong Xiang, Songjing Li*. A liquid progres sive multifocal lens adjusted by the deformation of a n on uniform elast ic membrane due to the variati on of liquid pressure. Journal of the Europ ean Optical Society Rapid Publications , 2018, 14, 17 (SCI, I F= 1.253) Meng Chen, Dong Xiang, Songjing Li, and Changfang Zou. Suppression of Squeal Noise Excited by the Pressure Pulsation from the Flapper-Nozzle Valve inside a Hydraulic Energy System [J]. Energies, 2018, 11(4): 955. (SCI, 收录号: 000434703400266, IF=2.676) Hasiaoqier Han, Songjing Li. Numerical Investigation on Suppressing High Frequency Slef-Ecited Noises of Armature Assembly in a Torque Motor Using Ferrofluid, Shock and Vibration, 2017, 05:1-10 (IF1.2) Hai Fu, Xuling Liu, Songjing Li. Mixing indexes considering the combination of mean and dispersion information from intensity images for the performance estimation of micromixing, RSC Advances, 2017，7（18）：10906~10914(IF 3.9) Xuling Liu, Songjing Li. Numerical Simulation on the Response Characteristics of a Pneumatic Microactuator for Microfluidic Chips, JALA, 2016, 21(3): 412-422 (IF 2.87) Min Zhang, Songjing Li. Controllable liquid colour-changing lenses with microfluidic channels for vision protection, camouflage and optical filtering based on soft lithography fabrication, Springerplus, 2016,(5): 450 (IF 1.045) Shengzhuo Zhang, Nay Zar Aung*, Songjing Li*. Reduction of undesired lateral forces acting on the flapper of a flapper–nozzle pilot valve by using an innovative flapper shape, Energy Conversion and Management, 106 (2015) 835–848 (IF4.28/2014) Jixiao Liu, Hai Fu, Tianhang Yang, and Songjing Li*. Automatic sequential fluid handling with multilayer microfluidic sample isolatedpumping, Biomicrofluidics 9, 054118 (2015); doi: 10.1063/1.4932303 (IF3.26/2014) Jixiao Liu, Songjing Li*, Debkishore Mitra. Multiphysical phenomenon of air bubble growth in polydimethylsiloxane channel corners under microfluidic negative pressure-driven flow. International Journal of Heat and Mass Transfer, 91 (2015) 611–618 (IF2.26/2014) Wen Zeng, Songjing Li*, Zuwen Wang. Closed-loop feedback control of droplet formation in a T-junctionmicrodroplet generator. Sensors and Actuators A: Physical, 233 (2015) 542–547 (IF2.01/2014 Wen Zeng, Ian Jacobi, Songjing Li* and Howard A Stone*. Variation in polydispersity in pump- and pressure-driven micro-droplet generators. Journal of Micromechanics and Microengineering, 25 (2015) 115015 (4pp) (IF1.87/2014) Xuling Liu, Songjing Li*. Numerical Simulation on the Response Characteristics of a Pneumatic Microactuator for Microfluidic Chips, Journal of Laboratory Automation, 06, 2015, DOI: 10.1177/2211068215584769 (IF1.51/2014) Songjing Li*, Min Zhang, Boxun Nie. A microfluidic system for liquid colourchanging glasses with shutter shade effect, Microsystem Technology, 3, 2015, DOI 10.1007/s00542-015-2506-7 (IF 0.952) Jiang Dana？, Li Song-Jingb, Yang Pinga, and Zhao Tian-Yanga. Frequency-dependent friction in pipelines, Chinese Physics B, Vol. 24, No. 3 (2015): 034701 (IF 1.392) Qingjun Yang a, Nay Zar Aung a,b*, Songjing Lia*. Confirmation on the effectiveness of rectangle-shaped flapper in reducing cavitation in flapper–nozzle pilot valve, Energy Conversion and Management, 98 (2015): 184–198 (IF 3.59) Wen Zeng,ab Ian Jacobi,ac David J. Beck,a Songjing Li*b and Howard A. Stone*a . Characterization of syringe-pump-driven induced pressure fluctuations in elastic microchannels, Lab-on-a-Chip, 2015, DOI: 10.1039/C4LC01347F(IF5.748) Jinghui Peng, Songjing Li and Yongbo Fan. Modeling and Parameter Identification of the Vibration Characteristics of Armature Assembly in a Torque Motor of Hydraulic Servo Valves under Electromagnetic Excitations. Advances in Mechanical Engineering, 2014 (2014), Article ID 247384, 10 pages, (IF1.062/2013) http://dx.doi.org/10.1155/2014/247384 Jinghui Peng, Songjing Li and Hasiaoqier Han. Damping properties for vibration suppression in electrohydraulic servo-valve torque motor using magnetic fluid, Applied Physics Letter, 104, 171905 (2014) (IF3.794/2013) http://dx.doi.org/10.1063/1.4875029 Xuling Liu, Songjing Li. An electromagnetic microvalve for pneumatic control of microfluidic systems, Journal of Laboratory Automation, 17, 2014, 221106821453176 (IF1.457/2013) doi: 10.1177/2211068214531760 Nay Zar Aung, Qingjun Yang, Songjing Li. CFD analysis of flow forces and energy loss characteristics in a flapper-nozzle pilot valve with different null clearances, Energy Conversion and Management, 83, 2014: pp. 284-295 (IF2.775/2013) Nay Zar Aung, Songjing LI. A numerical study of cavitation phenomenon in a flapper-nozzle pilot stage of an electrohydraulic servo-valve with an innovative flapper shape. Energy Conversion and Management, 01, 2014:（IF2.775 /2013） 蒋丹，李松晶，杨平. 无阀微泵腔内气泡对周期驱动压力的影响，物理学报(Acta Physica Sinica)，62（22），2013: 224703.1-7（IF1.016 /2013） Songjing Li, Nay Zar Aung, Shengzhuo Zhang, Junzhang Cao, Xinzhi Xue. Experimental and Numerical Investigation of Cavitation Phenomenon in Flapper-Nozzle Pilot Stage of an Electrohydraulic Servo-Valve. Computers and Fluids, 10, 2013 DOI: 10.1016/j.compfluid.2013.10.016 (IF1.467/2013) Nay Zar Aung, Songjing LI. Numerical investigation on effect of riser diameter and inclination on system parameters in a two-phase closed loop thermosyphon solar water heater. Energy Conversion and Management, 75, 2013:pp. 25-35 http://dx.doi.org/10.1016/j.enconman.2013.06.001（IF2.775 /2013） Songjing Li, Jixiao Liu, Dan Jiang. Dynamic Characterization of a Valveless Micropump Considering Entrapped Gas Bubbles. Journal of Heat Transfer,135(9), 2013: 091403(7 pages) doi:10.1115/1.4024461 (IF1.718/2013) Jiang Dan, Li Songjing, Kevin A Edge. Modeling and simulation of low pressure oil-hydraulic pipeline transients, Computers and Fluids, 07, 2012, http://dx.doi.org/10.1016/j.compfluid.2012.07.005(IF1.467/2013) Jiang Dan, Li Songjing. The dynamic characteristics of a valve-less micropump, Chinese Physics B, 21(7), 2012(IF1.148/2013) Zeng, W., Tong, Z., Li, S., Li, H., Zhang, L. Thermodynamic characteristic study of a high-temperature flow-rate control valve for fuel supply of scramjet engines. Chinese Journal of Aeronautics, 25(4), 2012, pp. 559 - 565 (IF0.438/2013) Li Songjing, Peng,Jinghui , Zhang Shengzhuo, Mchenya, Jacob M. Depression of Self-Excited Pressure Oscillations and Noise in the Pilot Stage of a Hydraulic Jet-Pipe Servo-Valve Using Magnetic Fluids, Advanced Materials Research, v 378-379, pp. 632-635, 2012, (EI检索号：20114614519497) 蒋丹,李松晶, 杨平. 收缩管/扩张管型无阀压电微泵的动态特性研究,工程力学,2011, 24（3）：218-223 (EI检索号：20111613922628） Li Hao, LI Songjing, Jinghui Peng. Study of self-excited noise and pressure oscillations in a hydraulic jet-pipe servo-valve with magnetic fluids, 2010, ISSCAA, p 1237-1241(EI检索号:20111013715819) Jiang Dan, Li Songjing. A hydraulic analogue model and analysis of a micropump considering the diaphragm，key engineering materials, 2009,（392-394）: 116-120 (EI检索号：20090611894223） Bilibili 《液压传动》和《走进奇妙的流体力学世界》网络课程 名称 讲授课程 名称 液压传动 Hydraulic Transmission 课程类型：专业基础课，授课对象：本科生，总学时：40，讲课学时：32，实验学时：8，学分：2.0 《液压传动》是机械设计制造及其自动化专业的技术基础课程。通常来讲，一般的机械设备是由动力装置、传动装置、工作执行装置和控制操纵装置组成。传动装置有机械传动、电力传动、气压传动和它们的组合等形式。液压传动是与机械传动、电力和气压传动等相并列的一种传动形式，是机械设备设计、使用和维护所必须掌握的技术和知识。《液压传动》课程是“机械设计制造及其自动化“专业的主干课，又是后继课程（《液压控制系统》和其它专业课）的先修课。 名称 微流控技术概论 课程类型：选修，授课对象：本科生，总学时：32，讲课学时：28，实验学时：4，学分：2.0 《微流控技术概论》是一门为机械设计制造及自动化专业的本科生开设的一门专业选修课。课程的目的是介绍微流控技术有关的交叉学科的知识以及液压学科本身正在发展的前沿性知识，目的是提高学生的创新能力，开阔学生视野。课程内容包括：微流控技术概述，微流控芯片和微流控生物芯片；微流控信息技术；微流控光学技术；微流控机械技术等。 讲授课程 名称 先进液压传动技术概论 INTRODUCTION OF ADVANCED HYDRAULIC TRANSMISSION TECHNIQUES 课程类型：选修课，授课对象：本科生，总学时：18，讲课学时：18，学分：1.0 本课程目的在于使学生了解液压传动技术的发展前沿，了解相关的计算机、新材料以及自动化技术在液压系统中的应用，了解液压元件和系统设计的新思想和新理念。本门课程为一门选修课程，目的在于拓宽学生的知识面，促进学生对先进液压传动技术的了解，在整个教学计划中起辅助作用。 该课程可访问超星学术视频http://video.chaoxing.com/serie_400009241.shtml 讲授课程 名称 功能流体 FUNCTIONAL FLUIDS 课程类型：创新研修课，授课对象：本科生，总学时：20，讲课学时：4，实践：16，学分：1.0 功能流体除了具有流体的特性外，还能够在一定条件下呈现出流变特性增强、屈服应力增大等特殊的性质，因而被广泛应用于制作微型驱动装置、阻尼器、减震器、无动作部件的液压阀、微小流控系统以及密封件等，具有结构紧凑、易于实现自动化控制、磨损小、寿命长等优点。本课程介绍磁流体、磁流变流体、电流变流体和电共轭流体等几种功能流体的性质、机理及应用。通过功能流体流变特性演示实验、磁流体密封设计计算、磁流变流体溢流阀特性试验、磁流变流体换向回路试验台搭建以及磁流变流体应用设计等教学环节，使学生能够具备设计和研制功能流体应用装置的能力，提高学生的创新意识。 讲授课程 名称 走进奇妙的流体力学世界 A Fabulious Fluid Mechanics World 课程类型：新生研讨课，授课对象：本科生，总学时：16，讲课学时：16，学分：1.0 流体力学与人类的日常生活、生产和生存息息相关，大到天体运动，小到毛细血管中血液的流动都离不开流体力学规律的作用。本课程采取首先通过教师集中讲授、然后进行实验室参观以及实例讲解等环节使学生了解流体力学领域的浴帘效应、塔科马桥事件以及水锤效应等几个有趣问题的来源、特性及其理论意义，通过讨论梳理生活中的流体力学、流体力学的发展历史以及流体力学领域目前国际学术界与工程界关注的热点方向与问题，针对圆柱绕流、喷嘴射流、流场中气穴产生及破灭等热点问题，开展流体力学研究方法、CFD仿真及实验手段的了解及学习。本课程将根据选课学员专业兴趣分组选题，采用资料调研、小组讨论并辅以教师点评等方式制定问题解决方案，形成研究报告；最后，各小组在课堂以答辩的形式分别呈现研究报告，通过同学间质疑、讨论以及教师点评，对各小组工作进行评价。 该课程可访问超星学术视频http://video.chaoxing.com/serie_400009546.shtml 讲授课程 名称 专业强化训练系列实验课 课程类型：选修课，授课对象：本科生，总学时：24，讲课学时：4，实践：20，学分：1.0 该系列实验课程包括《基于物联网的微流控系统实验》、《限压式变量叶片泵工作特性》、《液压泵压力脉动及噪声测试》三个实验，每个实验24学时。 名称 博士研究生 名称 李通 2018.09- 河南航天液压与气动研究所联合培养，主要研究方向：伺服阀 Siddique Muhammad Kashif 2019.09- 巴基斯坦 李鲁佳 2019.09- 硕士毕业于吉林大学，主要研究方向：微流控伪装 张亚运 2020.03- 硕士毕业于中国矿业大学，主要研究方向小型轻量化液压油源 Abdulrhman Mohanmmed 2021.09- 苏丹 田慧敏 2022.03- 硕士毕业于哈尔滨工业大学 贺阳 2022.09- 本科硕士毕业于哈尔滨工业大学 邓剑洋 2023.08- 硕士毕业于大连理工大学 熊芳艳 23.08- 本科毕业于贵阳大学，直攻博 硕士研究生 名称 刘云智 2022.09- 毕业于哈尔滨工业大学 徐昕尧 2022.09- 毕业于哈尔滨工业大学 周畅 2023.09- 毕业于哈尔滨工业大学 郑爽 2023.09- 已毕业博士研究生 名称 蒋丹 2005.09-2009.04 现电子科技大学（成都）机电工程学院 副教授 Jacob M Mchenya 2009.09-2012.07 现坦桑尼亚Dar es Salaam Institute of Technology任教 刘吉晓 2010-2015，（2012-2014加州大学伯克利分校联合培养） 现河北工业大学任教 Nay Zar Aung 2012.09-2015.07 现缅甸联邦共和国(Union Of Myanmar)任教 刘旭玲 2011.03-2016.01 美国宾州州立大学（PennsylvaniaState University）交换 张 玮 2011.09- 兰州理工大学任教 张圣卓 2011.09-2015.12 美国约翰-霍普金斯大学（The Johns Hopkins University）联合培养 彭敬辉 2011.09-2015.03 日本法政大学博士后，现美国普林斯顿大学（Princeton University）博士后 曾 文 2011.09-2016.12 美国普林斯顿大学（Princeton University）联合培养，哈尔滨工业大学任教 张敏 2013.03-2017.03 高校任教 陈猛 2013.09-2019.07 沈阳航天新光集团 贾伟亮 2012.09-2019.07 山东青岛胶州市科工信局 Bijan Krishna Saha 2016.09-2020.07 本科硕士毕业于孟加拉共和国（People's Republic Of Bangladesh） 高校任教 吕欣倍 2016.09-2021.07 哈尔滨工程大学任教 杨天航 2015.09-2021.12（直攻博） 中科院研究所（苏州），美国华盛顿大学联合培养 符海 2014.09-2022.04 本科毕业于吉林大学，硕士毕业于哈尔滨工业大学，美国杜克大学（Duke University）联合培养，主要研究方向：微流控装置，现深圳先研院任职 朱鋆峰 2017.03-2022.06，主要研究方向：生物样品提取微流控芯片 李欢欢 2017.09-2022.09，主要研究方向：微流控伪装及变色，哈尔滨工业大学任职 孙林 2018.09-2023.06 瑞士洛桑联邦理工学院联合培养，主要研究方向：微流控芯片及气压驱动 已毕业硕士研究生 名称 韩笑 2013。09-2015.07 本科毕业于哈尔滨工业大学，现美国AB公司 王贝贝 2013.09-2015.07 本科毕业于哈尔滨工业大学，现商飞集团 曹俊章 2011.09-2013.07 本科毕业于哈尔滨工业大学，现商飞集团 韩哈斯敖其尔 2011.09-2013.07 本科毕业于哈尔滨工业大学，现长春光机所 张振 2011.09-2013.07 本科毕业于哈尔滨工业大学，现一汽大众集团 张亮 2010.09-2012.07 现一汽大众集团 李洪洲 2010.09-2012.07 Alexander （俄罗斯） 2013-2015 俄罗斯 袁帅 2016-2018 香港大学 吴海成 2016-2018 华为集团 Maria （巴基斯坦） 2016-2018 电子科技大学读博 姜艳 2018.09-2020.07 吴优 2018.09-2020.07 吕斯宁 2019.09-2021.07 李睿智 2019.09-2021.07 Hazem Adbudula 2019.09-2021.07 埃及 赵越超 2020.09-2022.06 李国昕 2020.09-2023.06 杨睿 2020.09-2022.06 周靖翔 2021.09-2023.06 辛炜 2021.09-2023.06 朱瑞 2021.09-2023.06 论著成果 名称 E Rathkrishnan, Songjing Li, Essence of Fluid Mechanics（双语），科学出版社，2022.03 Songjing Li Xuling Liu Weiliang Jia, Chapter: Pneumatic pump Encyclopedia of Microfluidics and Nanofluidics Springer 2013.06 李松晶、向东、张玮, 轻松看懂液压气动系统原理图 化学工业出版社 2013.03 李松晶、王清岩等, 液压系统经典设计实例 化学工业出版社 2012.08 李松晶、阮健、弓永军, 先进液压传动技术概论 哈尔滨工业大学出版社 2008.01 李松晶、丛大成、姜洪洲, 液压系统原理图分析技巧 化学工业出版社 2009.01 论文期刊 名称 Audioslides-Paper in Computers and Fluids-Cavitation in the pilot stage of servo-valves 需要Adobe Flash Player进行播放 Yayun Zhang, Jinghui Peng, Songjing Li, Flow characteristic investigation on Laval-type flow rate regulating valves by fluid-thermal-structure interaction, International Communications in Heat and Mass Transfer, 2023.05 Yunfeng Zhu, Songjing Li, Particle dispersion and mixing characteristics on the surface of a closed microchamber with magnetic artificial cilia, Microelectronic Engineering, 2022.04 Lujia Li, Huanhuan Li, Gang Kou, Songjing Li, Dynamic Camouflage Characteristics of a Thermal Infrared Film Inspired by Honeycomb Structure, Biomimatic Engineering, 2022.02 Sun Lin,Thomas Lehnert, Li Songjing, Martin A. M. Gijs, Bubble-enhanced ultrasonic microfluidic chip for rapid DNA fragmentation, Lab on a chip, 2022.01 Huanhuan Li, Tianhang Yang, Lujia Li, Songjing Li, A Camouflaged Film Imitating the Chameleon Skin with Color-Changing Microfluidic Systems Based on the Color Information Identification of Background, Journal of Bionic Engineering, 2021.10 Yayun Cheng, Jinghui Peng, Rui Yang, Songjing Li, Weight and performance optimization of rectangular staggered fins heat exchangers for miniaturized hydraulic power units using genetic algorithm, Case Studies in Thermal Engineering, 2021.10 Sun Lin,Muhammad Kashif Siddique, Lei Wang,Li Songjing, Mixing characteristics of a bubble mixing microfluidic chip for genomic DNA extraction based on magnetophoresis: CFD simulation and experiment, Electrophoresis, 2021(04) Xinbei LV, Jinghui Peng, Li Songjing. Mathematical modeling of an armature assembly in pilot stage of a hydraulic servo valve based on distributed parameters, Chinese Journal of Aeronautics, 2020(05) Bijan Krishna Saha,Jinghui Peng,Li Songjing. Numerical and Experimental Investigations of Cavitation Phenomena Inside the Pilot Stage of the Deflector Jet Servo-Valve, IEEE Access, 2020, 03 Xinbei Lv,Bijan Krishna Saha,You Wu,Li Songjing. Distributed parameters modeling for the dynamic stiffness of a spring tube in servo valves, Structural Engineering & Mechanics, 2020(08) Tianhang Yang, Ji Peng, Zhiquan Shu, Praveen K. Sekar, Songjing Li,* and Dayong Gao *. Determination of the Membrane Transport Properties of Jurkat Cells with a Microfluidic Device, Micromachines 2019, 10, 832; doi:10.3390/mi10120832 Weiliang Jia, Biao Zhang*, Songjing Li*. Progressive Multifocal Liquid Lenses Based on Asymmetric Freeform Surface Structure of Nonuniform Thickness Elastic Membranes with Different Constraints. International Journal of Optics, 2019, 12, 2032870, 12 pages(SCI, IF=1.67) Meng Chen, Nay Zar Aung, Songjing Li*, Changfang Zou. Effect of Oil Viscosity on Self-Excited Noise Production inside the Pilot Stage of a Two-Stage Electrohydraulic Servo-Valve [J]. ASME Journal of Fluids Engineering, 2019, 141(1): 011106. (SCI, IF=1.915) Weiliang Jia , Dong Xiang, Songjing Li*. A liquid progres sive multifocal lens adjusted by the deformation of a n on uniform elast ic membrane due to the variati on of liquid pressure. Journal of the Europ ean Optical Society Rapid Publications , 2018, 14, 17 (SCI, I F= 1.253) Meng Chen, Dong Xiang, Songjing Li*, and Changfang Zou. Suppression of Squeal Noise Excited by the Pressure Pulsation from the Flapper-Nozzle Valve inside a Hydraulic Energy System [J]. Energies, 2018, 11(4): 955. (SCI, 收录号: 000434703400266, IF=2.676) Hasiaoqier Han, Songjing Li. Numerical Investigation on Suppressing High Frequency Slef-Ecited Noises of Armature Assembly in a Torque Motor Using Ferrofluid, Shock and Vibration, 2017, 05:1-10 (IF1.2) Hai Fu, Xuling Liu, Songjing Li. Mixing indexes considering the combination of mean and dispersion information from intensity images for the performance estimation of micromixing, RSC Advances, 2017，7（18）：10906~10914(IF 3.9) Xuling Liu, Songjing Li. Numerical Simulation on the Response Characteristics of a Pneumatic Microactuator for Microfluidic Chips, JALA, 2016, 21(3): 412-422 (IF 2.87) Min Zhang, Songjing Li. Controllable liquid colour-changing lenses with microfluidic channels for vision protection, camouflage and optical filtering based on soft lithography fabrication, Springerplus, 2016,(5): 450 (IF 1.045) Shengzhuo Zhang, Nay Zar Aung*, Songjing Li*. Reduction of undesired lateral forces acting on the flapper of a flapper–nozzle pilot valve by using an innovative flapper shape, Energy Conversion and Management, 106 (2015) 835–848 (IF4.28/2014) Jixiao Liu, Hai Fu, Tianhang Yang, and Songjing Li*. Automatic sequential fluid handling with multilayer microfluidic sample isolatedpumping, Biomicrofluidics 9, 054118 (2015); doi: 10.1063/1.4932303 (IF3.26/2014) Jixiao Liu, Songjing Li*, Debkishore Mitra. Multiphysical phenomenon of air bubble growth in polydimethylsiloxane channel corners under microfluidic negative pressure-driven flow. International Journal of Heat and Mass Transfer, 91 (2015) 611–618 (IF2.26/2014) Wen Zeng, Songjing Li*, Zuwen Wang. Closed-loop feedback control of droplet formation in a T-junctionmicrodroplet generator. Sensors and Actuators A: Physical, 233 (2015) 542–547 (IF2.01/2014) Wen Zeng, Ian Jacobi, Songjing Li* and Howard A Stone*. Variation in polydispersity in pump- and pressure-driven micro-droplet generators. Journal of Micromechanics and Microengineering, 25 (2015) 115015 (4pp) (IF1.87/2014) Xuling Liu, Songjing Li*. Numerical Simulation on the Response Characteristics of a Pneumatic Microactuator for Microfluidic Chips, Journal of Laboratory Automation, 06, 2015, DOI: 10.1177/2211068215584769 (IF1.51/2014) Songjing Li*, Min Zhang, Boxun Nie. A microfluidic system for liquid colourchanging glasses with shutter shade effect, Microsystem Technology, 3, 2015, DOI 10.1007/s00542-015-2506-7 (IF 0.952) Jiang Dana？, Li Song-Jingb, Yang Pinga, and Zhao Tian-Yanga. Frequency-dependent friction in pipelines, Chinese Physics B, Vol. 24, No. 3 (2015): 034701 (IF 1.392) Qingjun Yang a, Nay Zar Aung a,b*, Songjing Lia*. Confirmation on the effectiveness of rectangle-shaped flapper in reducing cavitation in flapper–nozzle pilot valve, Energy Conversion and Management, 98 (2015): 184–198 (IF 3.59) Wen Zeng,ab Ian Jacobi,ac David J. Beck,a Songjing Li*b and Howard A. Stone*a . Characterization of syringe-pump-driven induced pressure fluctuations in elastic microchannels, Lab-on-a-Chip, 2015, DOI: 10.1039/C4LC01347F(IF5.748) Jinghui Peng, Songjing Li* and Yongbo Fan. Modeling and Parameter Identification of the Vibration Characteristics of Armature Assembly in a Torque Motor of Hydraulic Servo Valves under Electromagnetic Excitations. Advances in Mechanical Engineering, 2014 (2014), Article ID 247384, 10 pages, (IF1.062/2013) http://dx.doi.org/10.1155/2014/247384 Jinghui Peng, Songjing Li and Hasiaoqier Han. Damping properties for vibration suppression in electrohydraulic servo-valve torque motor using magnetic fluid, Applied Physics Letter, 104, 171905 (2014) (IF3.794/2013) http://dx.doi.org/10.1063/1.4875029 Xuling Liu, Songjing Li. An electromagnetic microvalve for pneumatic control of microfluidic systems, Journal of Laboratory Automation, 17, 2014, 221106821453176 (IF1.457/2013) doi: 10.1177/2211068214531760 Nay Zar Aung, Qingjun Yang, Songjing Li. CFD analysis of flow forces and energy loss characteristics in a flapper-nozzle pilot valve with different null clearances, Energy Conversion and Management, 83, 2014: pp. 284-295 (IF2.775/2013) Nay Zar Aung, Songjing LI. A numerical study of cavitation phenomenon in a flapper-nozzle pilot stage of an electrohydraulic servo-valve with an innovative flapper shape. Energy Conversion and Management, 01, 2014:（IF2.775 /2013） 蒋丹，李松晶，杨平. 无阀微泵腔内气泡对周期驱动压力的影响，物理学报(Acta Physica Sinica)，62（22），2013: 224703.1-7（IF1.016 /2013） Songjing Li, Nay Zar Aung, Shengzhuo Zhang, Junzhang Cao, Xinzhi Xue. Experimental and Numerical Investigation of Cavitation Phenomenon in Flapper-Nozzle Pilot Stage of an Electrohydraulic Servo-Valve. Computers and Fluids, 10, 2013 DOI: 10.1016/j.compfluid.2013.10.016 (IF1.467/2013) Nay Zar Aung, Songjing LI. Numerical investigation on effect of riser diameter and inclination on system parameters in a two-phase closed loop thermosyphon solar water heater. Energy Conversion and Management, 75, 2013:pp. 25-35 http://dx.doi.org/10.1016/j.enconman.2013.06.001（IF2.775 /2013） Songjing Li, Jixiao Liu, Dan Jiang. Dynamic Characterization of a Valveless Micropump Considering Entrapped Gas Bubbles. Journal of Heat Transfer,135(9), 2013: 091403(7 pages) doi:10.1115/1.4024461 (IF1.718/2013) Jiang Dan, Li Songjing, Kevin A Edge. Modeling and simulation of low pressure oil-hydraulic pipeline transients, Computers and Fluids, 07, 2012, http://dx.doi.org/10.1016/j.compfluid.2012.07.005(IF1.467/2013) Jiang Dan, Li Songjing. The dynamic characteristics of a valve-less micropump, Chinese Physics B, 21(7), 2012(IF1.148/2013) Zeng, W., Tong, Z., Li, S., Li, H., Zhang, L. Thermodynamic characteristic study of a high-temperature flow-rate control valve for fuel supply of scramjet engines. Chinese Journal of Aeronautics, 25(4), 2012, pp. 559 - 565 (IF0.438/2013) Li Songjing, Peng,Jinghui , Zhang Shengzhuo, Mchenya, Jacob M. Depression of Self-Excited Pressure Oscillations and Noise in the Pilot Stage of a Hydraulic Jet-Pipe Servo-Valve Using Magnetic Fluids, Advanced Materials Research, v 378-379, pp. 632-635, 2012, (EI检索号：20114614519497) 蒋丹,李松晶, 杨平. 收缩管/扩张管型无阀压电微泵的动态特性研究,工程力学,2011, 24（3）：218-223 (EI检索号：20111613922628） Li Hao, LI Songjing, Jinghui Peng. Study of self-excited noise and pressure oscillations in a hydraulic jet-pipe servo-valve with magnetic fluids, 2010, ISSCAA, p 1237-1241(EI检索号:20111013715819) Jiang Dan, Li Songjing. A hydraulic analogue model and analysis of a micropump considering the diaphragm，key engineering materials, 2009,（392-394）: 116-120 (EI检索号：20090611894223） Songjing Li, Wen Bao. Influence of magnetic fluids on the dynamic characteristics of a hydraulic servo-valve torque motor. Mechanical Systems and Signal Processing, 2008, 22（4）：1008-1016. (SCI，2006影响因子1.180) Songjing Li, Chifu Yang, Dan Jiang. Modeling of Hydraulic Pipeline Transients Accompanied with Cavitation and Gas Bubbles Using Parallel Genetic Algorithms. ASME Journal of Applied Mechanics, 2008, 75(7). (SCI，2006影响因子0.943) 蒋丹、李松晶、包钢. 采用遗传算法的压力脉动过程中气泡和气穴模型辨识. 物理学报，2008,08（SCI，2006影响因子1.051） Songjing LI. Thermodynamic analysis of friction pairs inside a high temperature flow rate control valve for scramjet engines. Material science forum, 2008, 04: 575-578 (EI) Songjing Li, Yanwei Song. Dynamic response of a hydraulic servo-valve torque motor with magnetic fluids. Mechatronics, 2007, 17(8)：442-447(SCI，2006影响因子0.745) 团队成员 名称 彭敬辉 研究员 博士毕业于哈尔滨工业大学 主要研究方向：计算流体力学、伺服阀、液压元件及系统 李鑫 助理研究员 博士毕业于哈尔滨工业大学 主要研究方向：张拉整体结构、机器人、微流控、图像识别 Maria Muzamil Memon 助理研究员 博士毕业于电子科技大学 主要研究方向：微纳传感器、微流控