一、基本信息
劉曉寧,黑龍江牡丹江人,博士生導師。主要科研方向為細觀力學、高階連續(xù)理論、波動力學及超材料設計。主持國家自然科學基金面上(含青年)項目4項、省部級及橫向合作科研項目10余項,參與國家自然科學基金重大、重點項目各1項。在Nature Communications, Journal of the Mechanics and Physics of Solids, International Journal of Plasticity, Proceedings of the Royal Society A, Physics Review B 等知名期刊發(fā)表學術論文50篇,SCI他引2000余次,2013年獲中國力學學會全國“徐芝倫”力學優(yōu)秀教師獎。歡迎有較強力學和數(shù)理基礎、思維活躍、態(tài)度積極向上的學生報考。
EMAIL: drxnliu@qq.com
二、教育背景
2000.09—2003.09 北京理工大學理學院 博士 工程力學
1997.09—2000.02 北京理工大學理學院 碩士 固體力學
1993.09—1997.08 北京理工大學應用力學系 本科 工程力學
三、工作經(jīng)歷
2023.02—今 長沙理工大學土木工程學院 副教授
2009.01—2023.01 北京理工大學宇航學院 副教授
2009.12—2011.12 University of Arkansas at Little Rock 訪問學者
2003.09—2008.12北京理工大學理學院 講師
四、研究領域
■波動力學,超材料與智能材料設計
■固體力學,復合材料力學,工程仿真計算
五、科研項目
1.總裝“十四五”裝備預研共用技術項目,XXX設計與制備技術,2022-2024,120萬,主持.
2.國家自然科學基金面上項目(11972080),拓撲力學超材料的基礎理論與應用研究,2020-2023,63萬,主持.
3.國家自然科學基金面上項目(11372035),基于手性介質(zhì)的彈性波超材料設計方法與實驗研究,2014-2017,78萬,主持.
4.國家自然科學基金面上項目(10972036),彈性波超材料力學模型及功能設計,2010-2012,33萬,主持.
5.國家自然科學基金面上青年項目(10502007),高階連續(xù)介質(zhì)細觀力學及微觀基礎,2006-2008,25萬,主持.
6.中國艦船研究設計中心海洋防務技術創(chuàng)新中心創(chuàng)新基金項目(中船重工719研究所),粘彈性材料超結構動力學性能的數(shù)值計算方法研究,30萬,2022-2023,主持.
7.北京航天長征飛行器研究所,XXX毀傷分析研究,40萬,2022-2022,主持.
8.軍科委基礎加強項目,XXX設計研究,100萬,2020-2022,參與.
9.中船重工719研究所,多相介質(zhì)微結構設計研究,50萬,2019-2020,主持.
10.國家自然科學基金重點項目(11632003),彈性波超材料動態(tài)表征理論及波動控制,2017-2021,320萬,參與.
11.航天三院,XXX艙段動力學響應分析,20萬,2017-2018,主持.
12.中國船舶系統(tǒng)工程研究院,五模材料微結構設計研究,48萬,2015-2016,參與.
13.中船重工719研究所,五模材料微結構設計及聲調(diào)控技術研究,95萬,2015-2016,參與.
14.國家自然科學基金重大項目(11290152),大型可展空間結構的非線性動力學建模、分析與控制,2000萬,2013-2017,參與.
15.中國直升機設計研究所,彈性軸承和粘彈性阻尼器應力及疲勞研究,16萬,2007-2009,主持.
16.天津大港油田采油工藝研究院,抽油桿柱和注水管柱力學分析和優(yōu)化設計,33萬,2007-2008,主持.
17.航天科技集團一院一部,金屬熱防護系統(tǒng)傳熱和力學分析,12萬,2007-2008,主持.
18.航天科技集團一院一部,箭體橫向分離裝置仿真分析,11萬,2006-2007,主持.
19.北京理工大學優(yōu)秀青年教師資助項目,高階連續(xù)介質(zhì)細觀力學研究,6萬,2006-2007,主持.
20.航天科技集團一院703所,往復運動密封圈有限元分析,5萬,2005-2006,主持.
六、主講課程
《工程力學》,《有限元理論與方法》,《固體本構理論》,《彈性力學》
七、獎勵榮譽
1.北京地區(qū)廣受關注學術論文獎,“Chen Y, Liu XN, Hu GK. Topological phase transition in mechanical honeycomb lattice (JMPS 2019)”, 2021.
2.北京理工大學優(yōu)秀教育教學成果二等獎,“面向多樣化發(fā)展需求的力學研究生培新模式與實踐”,2021.
3.北京理工大學優(yōu)秀教育教學成果二等獎,“材料與結構力學核心貫通課改革”,2020.
4.國防科技進步二等獎,“XXX結構設計理論與實現(xiàn)方法研究”,2019年(排名9).
5.中國力學學會全國“徐芝倫”力學優(yōu)秀教師獎,2013.
八、學術論文
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.劉曉寧,萬力臣,基于扭曲Kagome點陣結構的一模材料設計,固體力學學報,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.陳毅,張泉,張亞飛,夏百戰(zhàn),劉曉寧,周蕭明,陳常青,胡更開, 彈性拓撲材料研究進展. 力學進展,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.陳毅, 劉曉寧, 向平, 胡更開. 五模材料及其水聲調(diào)控研究. 力學進展, 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、發(fā)明專利
1.劉曉寧,鄭明曄,趙炳昊,胡更開. 一種基于五模材料的寬頻彈性體波分離器件及其設計方法. 專利號: ZL202110468875.4,授權日:2022.7.5.
2.劉曉寧,鄭明曄,陳毅,胡更開. 一種基于聲壓補償機制的二維水聲聲場測試系統(tǒng),專利號:ZL201710281708.2,授權日:2019.9.10.
3.劉曉寧,陳毅,胡更開. 一種具有五模材料特征的超材料及判定方法,專利號:ZL201510418800.X,授權日:2016.9.14.