一、基本信息
刘晓宁,黑龙江牡丹江人,博士生导师。主要科研方向为细观力学、高阶连续理论、波动力学及超材料设计。主持国家自然科学基金面上(含青年)项目4项、省部级及横向合作科研项目10余项,参与国家自然科学基金重大、重点项目各1项。在Nature Communications, Journal of the Mechanics and Physics of Solids, International Journal of Plasticity, Proceedings of the Royal Society A, Physics Review B等知名期刊发表学术论文50篇,SCI他引2000余次,2013年获中国力学学会全国“徐芝伦”力学优秀教师奖。欢迎有较强力学和数理基础、思维活跃、态度积极向上的学生报考。
EMAIL:drxnliu@qq.com
二、教育背景
2000.09—2003.09北京理工大学理学院博士工程力学
1997.09—2000.02北京理工大学理学院硕士固体力学
1993.09—1997.08北京理工大学应用力学系 本科工程力学
三、工作经历
2023.02—今新利官网开户 土木工程学院副教授
2009.01—2023.01北京理工大学宇航学院副教授
2009.12—2011.12 University of Arkansas at Little Rock访问学者
2003.09—2008.12北京理工大学理学院讲师
四、研究领域
■波动力学,超材料与智能材料设计
■固体力学,复合材料力学,工程仿真计算
五、科研项目
1.总装“十四五”装备预研共用技术项目,XXX设计与制备技术,2022-2024,120万,主持.
2.国家自然科学基金面上项目(11972080),拓扑力学超材料的基础理论与应用研究,2020-2023,63万,主持.
3.国家自然科学基金面上项目(11372035),基于手性介质的弹性波超材料设计方法与实验研究,2014-2017,78万,主持.
4.国家自然科学基金面上项目(10972036),弹性波超材料力学模型及功能设计,2010-2012,33万,主持.
5.国家自然科学基金面上青年项目(10502007),高阶连续介质细观力学及微观基础,2006-2008,25万,主持.
6.中国舰船研究设计中心海洋防务技术创新中心创新基金项目(中船重工719研究所),粘弹性材料超结构动力学性能的数值计算方法研究,30万,2022-2023,主持.
7.北京航天长征飞行器研究所,XXX毁伤分析研究,40万,2022-2022,主持.
8.军科委基础加强项目,XXX设计研究,100万,2020-2022,参与.
9.中船重工719研究所,多相介质微结构设计研究,50万,2019-2020,主持.
10.国家自然科学基金重点项目(11632003),弹性波超材料动态表征理论及波动控制,2017-2021,320万,参与.
11.航天三院,XXX舱段动力学响应分析,20万,2017-2018,主持.
12.中国船舶系统工程研究院,五模材料微结构设计研究,48万,2015-2016,参与.
13.中船重工719研究所,五模材料微结构设计及声调控技术研究,95万,2015-2016,参与.
14.国家自然科学基金重大项目(11290152),大型可展空间结构的非线性动力学建模、分析与控制,2000万,2013-2017,参与.
15.中国直升机设计研究所,弹性轴承和粘弹性阻尼器应力及疲劳研究,16万,2007-2009,主持.
16.天津大港油田采油工艺研究院,抽油杆柱和注水管柱力学分析和优化设计,33万,2007-2008,主持.
17.航天科技集团一院一部,金属热防护系统传热和力学分析,12万,2007-2008,主持.
18.航天科技集团一院一部,箭体横向分离装置仿真分析,11万,2006-2007,主持.
19.北京理工大学优秀青年教师资助项目,高阶连续介质细观力学研究,6万,2006-2007,主持.
20.航天科技集团一院703所,往复运动密封圈有限元分析,5万,2005-2006,主持.
六、主讲课程
《工程力学》,《有限元理论与方法》,《固体本构理论》,《弹性力学》
七、奖励荣誉
1.北京地区广受关注学术论文奖,“Chen Y, Liu XN, Hu GK. Topological phase transition in mechanical honeycomb lattice (JMPS 2019)”, 2021.
2.北京理工大学优秀教育教学成果二等奖,“面向多样化发展需求的力学研究生培新模式与实践”,2021.
3.北京理工大学优秀教育教学成果二等奖,“材料与结构力学核心贯通课改革”,2020.
4.国防科技进步二等奖,“XXX结构设计理论与实现方法研究”,2019年(排名9).
5.中国力学学会全国“徐芝伦”力学优秀教师奖,2013.
八、学术论文
1.Qu HF,Liu XN, Hu GK. Mass-spring model of elastic media with customizable Willis coupling. International Journal of Mechanical Sciences, 2022, 224: 107325.
2.Cai M,Liu XN, Hu GK, Zhou PZ. Customization of two-dimensional extremal materials. Materials & Design, 2022,218: 110657.
3.Ge YY,Liu XN, Hu GK. Design of elliptical underwater acoustic cloak with truss-latticed pentamode materials. Theoretical and Applied Mechanics Letters, 2022, 100346.
4.刘晓宁,万力臣,基于扭曲Kagome点阵结构的一模材料设计,固体力学学报,2022.
5.Qu HF,Liu XN, Hu GK. Topological valley states in sonic crystals with Willis coupling. Applied Physics Letters, 2021, 119: 051903.
6.Wei Y,Liu XN, Hu GK. Quadramode materials: Their design method and wave property. Materials & Design, 2021, 210: 110031.
7.陈毅,张泉,张亚飞,夏百战,刘晓宁,周萧明,陈常青,胡更开,弹性拓扑材料研究进展.力学进展,2021, 51: 189-256.
8.Chen Y, Zhao BH,Liu XN, Hu GK. Highly anisotropic hexagonal lattice material for low frequency water sound insulation. Extreme Mechanics Letters, 2020, 40: 100916.
9.Zhang HK, Chen Y,Liu XN, Hu GK. An asymmetric elastic metamaterial model for elastic wave cloaking. Journal of the Mechanics and Physics of Solids, 2020, 135: 103796.
10.Nie X, Chen Y,Liu XN. Scattering analysis and optimization of spherical acoustic cloak with unideal pentamode material. Acta Mechanica Solida Sinica, 2020, 33: 347-360.
11.Zheng MY, Park C,Liu XN, Zhu R, Hu GK, Kim YY. Non-resonant metasurface for broadband elastic wave mode splitting. Applied Physics Letters, 2020, 116: 171903.
12.Shen ZX, Li HJ,Liu XN, Hu GK. Thermal-structural dynamic analysis of a satellite antenna with the cable-network and hoop-truss supports. Journal of Thermal Stresses, 2019, 42: 1339-1356.
13.Zheng MY,Liu XN, Chen Y, Miao HC, Zhu R, Hu GK. Theory and realization of nonresonant anisotropic singly polarized solids carrying only shear waves. Physical Review Applied, 2019, 12: 014027.
14.Chen Y,Liu XN, Hu GK. Influences of imperfectness and inner constraints on an acoustic cloak with unideal pentamode materials. Journal of Sound and Vibration, 2019, 458: 62-73.
15.Chen Y,Liu XN, Hu GK. Topological phase transition in mechanical honeycomb lattice. Journal of the Mechanics and Physics of Solids, 2019, 122: 54-68.
16.Zheng MY, Chen Y,Liu XN, Hu GK. Two-dimensional water acoustic waveguide based on pressure compensation method. Review of Scientific Instruments, 2018, 89: 024902.
17.Wang YT,Liu XN, Zhu R, Hu GK*. Wave propagation in tunable lightweight tensegrity metastructure. Scientific Reports, 2018, 8:11482.
18.Shen ZX, Li HJ,Liu XN, Hu GK. Thermal shock induced dynamics of a spacecraft with a flexible deploying boom. Acta Astronautica, 2017, 141: 123-131.
19.Chen Y, Zheng MY,Liu XN, Bi Y, Sun Z, Xiang P, Yang J, Hu GK*. Broadband solid cloak for underwater acoustics. Physical Review B, 2017, 95: 180104(R).
20.Chen Y,Liu XN, Hu GK. Design of arbitrary shaped pentamode acoustic cloak based on quasi-symmetric mapping gradient algorithm. Journal of the Acoustical Society of America, 2016, 140: EL405.
21.陈毅,刘晓宁,向平,胡更开.五模材料及其水声调控研究.力学进展, 2016, 46: 201609.
22.Liu XN, Hu GK. Elastic metamaterials making use of chirality: a review. SV-Journal of Mechanical Engineering, 2016, 62: 403-418.
23.Zhu R,Liu XN, Hu GK, Yuan FG, Huang GL. Microstructural designs of plate-type elastic metamaterial and their potential applications: A review. International Journal of Smart and Nano Materials, 2015, 6: 14-40.
24.Chen Y,Liu XN,Hu GK. Latticed pentamode acoustic cloak. Scientific Reports, 2015, 5: 15745.
25.Zhu R,Liu XN, Huang GL. Study of anomalous wave propagation and reflection in semi-infinite elastic metamaterials. Wave Motion, 2015, 55: 73-83.
26.Zhu R,Liu XN, Hu GK, Sun CT, Huang GL. Negative refraction of elastic waves at the deep-subwavelength scale in a single-phase metamaterial. Nature Communications, 2014, 5: 5510.
27.Chang Z,Liu XN*, Hu GK. Heat flow control by transformation method with grid generation method. Acta Mechanica Solida Sinica, 2014, 27: 454-460.
28.Chen Y,Liu XN*, Hu GK. Micropolar modeling of planar orthotropic rectangular chiral lattices. Comptes Rendus Mécanique, 2014, 342: 273-283.
29.Zhu R,Liu XN, Hu GK, Sun CT, Huang GL. A chiral elastic metamaterial beam for broadband vibration suppression. Journal of Sound and Vibration, 2014, 333: 2759-2773.
30.Chen Y,X.N. Liu, Hu GK*, Sun QP, Zheng QS. Micropolar continuum modelling of bi-dimensional tetrachiral lattices. Proceedings of The Royal Society A, 2014, 470: 20130734.
31.Shen ZX, Tian Q,Liu XN, Hu GK. Thermally induced vibrations of flexible beams using absolute nodal coordinate formulation. Aerospace Science and Technology, 2013, 29: 386-393.
32.Yan D, Liu C, Tian Q, Zhang K,Liu XN, Hu GK. A new curved gradient deficient shell element of absolute nodal coordinate formulation for modeling thin shell structures. Nonlinear Dynamics, 2013, 74: 153-164.
33.Hu J*,Liu XN, Hu GK. Constraint condition on transformation relation for generalized acoustics. Wave Motion, 2013, 50: 170-179.
34.Zhu R,Liu XN, Huang GL, Huang HH, Sun CT. Microstructural design and experimental validation of elastic metamaterial plates with anisotropic mass density. Physical Review B, 2012, 86: 144307.
35.Chang Z,Liu XN, Hu GK. Transformation ray method: controlling high frequency elastic waves. Journal of the Acoustical Society of America, 2012, 132: 2942-2945.
36.Liu XN, Huang GL*, Hu GK. Chiral effect in plane isotropic micropolar elasticity and its application to chiral lattices. Journal of the Mechanics and Physics of Solids, 2012, 60: 1907-1921.
37.Zhou XM,Liu XN, Hu GK. Elastic metamaterials with local resonances: an overview. Theoretical & Applied Mechanics Letters, 2012, 2: 041001.
38.Liu AP, Zhu R,Liu XN, Hu GK, Huang GL. Multi-displacement microstructure continuum modeling of anisotropic elastic metamaterials. Wave Motion, 2012, 49: 411-426.
39.Liu XN, Hu GK, Huang GL, Sun CT. An elastic metamaterial with simultaneously negative mass density and bulk modulus. Applied Physics Letters, 2011, 98: 251907.
40.Liu XN, Hu GK, Sun CT, Huang GL. Wave propagation characterization and design of two-dimensional elastic chiral metacomposite. Journal of Sound and Vibration, 2011, 330: 2536-2553.
41.Song F, Huang GL, Park HS,Liu XN. A continuum model for the mechanical behavior of nanowires including surface and surface-induced initial stresses. International Journal of Solids and Structures, 2011, 48: 2154-2163.
42.Chen H,Liu XN, Hu GK, Yuan H. Identification of material constants for micropolar composite by homogenization method. Computatinal Material Sciences, 2009, 46: 733-737.
43.Chen H, Liu XN, Hu GK. Overall plasticity of micropolar composites with interface effect. Mechanics of Materials, 2008, 40: 721-728.
44.Ma HS,Liu XN, Hu GK. Overall elastoplastic property for micropolar composites with randomly oriented ellipsoidal inclusions. Computational Materials Science, 2006, 37: 582-592.
45.Guo QQ,Liu XN, Hu GK. Micromechanical modeling of local field distribution for planar composite under plastic deformation. Acta Mechanica, 2006, 187: 139-149.
46.Liu XN, Hu GK. A continuum micromechanical theory of overall plasticity for particulate composites including particle size effect. International Journal of Plasticity, 2005, 21: 777-799.
47.Hu GK,Liu XN, Lu TJ. A variational method for non-linear micropolar composites. Mechanics of Materials, 2005, 37: 407-425.
48.Liu XN, Hu GK. Inclusion problem of microstretch continuum. International Journal of Engineering Science, 2004, 42: 849-860.
九、发明专利
1.刘晓宁,郑明晔,赵炳昊,胡更开.一种基于五模材料的宽频弹性体波分离器件及其设计方法.专利号:ZL202110468875.4,授权日:2022.7.5.
2.刘晓宁,郑明晔,陈毅,胡更开.一种基于声压补偿机制的二维水声声场测试系统,专利号:ZL201710281708.2,授权日:2019.9.10.
3.刘晓宁,陈毅,胡更开.一种具有五模材料特征的超材料及判定方法,专利号:ZL201510418800.X,授权日:2016.9.14.
