代表性学术论文

2024

69. Zhen Liu* , Haowei Du, Shiqi Li, Zihan Kang, Tianjiao Dang, Experimental and Computational Investigations of Flexible Membrane Nano Rotors in Hover. Aerospace Science and Technology, 2024, 155(1): 109583.

68. 周长伟,谢文浩,刘振皓,任方,梁德利,刘振*. 复合材料加筋板高频声振响应试验和仿真研究.强度与环境,202451(1):37-43.

67. Tianjiao Dang, Zhen Liu, M. Morandini, Linjie Ma, and P. Masarati. Bifurcation and Chaos Analysis of a Supersonic Slipper–Track System. ASME. J. Comput. Nonlinear Dynam, 2024,19(8): 081003. https://doi.org/10.1115/1.4065629.

66. Ye Sun, Zhen Liu*,Jun Li, Dike Hu, Deli Liang, Tianjiao Dang. Noise Reduction of Multinozzle Rocket Jet by Multideck Water Injection. Journal of Aerospace Engineering, 2024, 37(2): 04024002.

 2023

65. Ye SunZhen Liu*. Non-Equilibrium Ionized Flow Simulations over Different Shapes of Bodies within Electro-Magnetic Fields. Proceeding of 21st International Symposium on Applied Electromagnetics and Mechanics,2023.

64. Zihan Kang, Zhen Liu*, Fengwan Zhao, Jie Zhang. Investigation of Smart Nano Rotor with Continuous Trailing Edge Flap Driven by Electroactive Polymer, Proceeding of APISAT 2023.

63. 夏洪利刘振*,闫华东赵项伟孟鑫. 高超声速火箭橇刨削效应仿真与验证研究.学报,202357(4):71-79.

62. 赵鹏刚,刘振*党天骄,孙亚川,孙也.地面效应影响下的高速火箭橇气动特性数值与风洞试验研究.计算力学学报,2023402:314-322.

61. 杜昊炜, *,康子晗,李世琪. 基于智能变后缘的超微型无人机高度控制研究. 无人系统技术202363):103-117.

​​​​​​2022

60. 牛重阳,刘振*,谢文浩等,基于连续纤维增强的无人机机翼结构优化设计,装备环境工程发展论坛,813日,2022,昆明。

59. 谢文浩,刘振*,牛重阳.基于流固耦合的前缘加强混合膜翼气动特性分析.第七届装备环境工程发展论坛,1110-1113日,2022年,云南昆明

58. 赵鹏刚,周嘉明,穆朋刚,王珺,李斌潮,刘振*液体火箭发动机多源动载荷识别研究,第七届装备环境工程发展论坛,1112日,2022,昆明。

57. 杜昊炜,刘振,康子晗,李世琪,基于智能变后缘的超微型无人机高度控制研究,无人系统高峰论坛,9月25日, 2022, 西安。

56. Yiqi Xu, Zhen Liu*, Research on Flight Control Method of Micro Co-axial Rotor UAV Based on Reinforcement Learning, 2022 International Conference on Autonomous Unmanned Systems (ICAUS 2022), Sept.23-Sept.25, 2022, Xi’an, China.

55. 李俊,刘振*,胡迪科,党天骄,董龙雷,水射流介入多组分喷流降噪仿真研究,应用力学学报,2022,(02):375-385.doi:10.11776/j.issn.1000- 4939.2022.02.023

54. TianjiaoDang, Zhen Liu*, Xuewen Zhou, Ye Sun and Penggang Zhao, Dynamic Response of a Hypersonic Rocket Sled Considering Friction and Wear, Journal of Spacecraft and Rockets, 2022, http://arc.aiaa.org DOI: 10.2514/1.A35267.

2021

53. Shanyong Zhao, Zhen Liu, Ke Lu, Dacheng Su, Shangjing Wu, Investigation on Aerodynamic Characteristics of Bionic Membrane Nano Rotor, International Journal of Micro Air Vehicles, 2021, 18, doi:10.1177/17568293211043304.

52. Yachuan Sun, Zhen Liu*, Jie Sun, Fang Ren, Hao Cheng and Longlei Dong, Snap-through Response of Thermally Buckled C/SiC Plates Considering Boundary Elasticity and Initial Imperfections under Progressive Wave Loading, Composite Structures, 2021, 276, 114443.

51. 刘振*,孙亚川. 热噪声载荷下C/SiC复合材料板的非线性混沌响应研究. 中国复合材料学会空天动力复合材料及应用专业委员2021年度学术会议, 2021, 北海.

50. Yachuan Sun, Zhen Liu*, Jie Sun and Tianjiao Dang. Nonlinear dynamic response of C/SiC plate under thermal-acoustic load. 8th International Conference on Conference on Vibration Engineering, 2021, Shanghai.

49. Zhen Liu*, Shiqi Li, Yulin Ren, and Dike Hu, Investigation of Bioinspired Flow for a Nano Coaxial Rotor in Hover, Journal of Aerospace Engineering, 2021, 34(3): 04021009.

48. Dang T, Li B, Hu D, Sun Y, Zhen Liu*. Aerodynamic Design Optimization of a Hypersonic Rocket Sled Deflector Using the Free-form Deformation Technique. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering. March 2021, 235(15):2240-2248.

2020

47. Zhao Shanyong, Liu Zhen, Sun Yachuan, Dang Tianjiao, Li Shiqi, Bio-inspired nano rotor investigation based on UVLM, Biosurface and Biotribology, 2020, 6(1), 20-24.

46. Zhao Shanyong, Zhen Liu*, Penglei Che, Bingfei Li, Tianjiao Dang, Chen Bu. Propulsion Performance Investigation of Bio-inspired Nano Rotor Base on Fluid-Structure Interaction. International Journal of Micro Air Vehicles, 2020, 12(1):1-11.

45. Chao Huo, Zhen Liu, Performance evaluations of a shrouded contra-rotating rotor based on a novel-designed platform with multiple testing possibilities, Proceedings of the Institution of Mechanical Engineers Part G Journal of Aerospace Engineering, 2020, 1-14. DOI:10.1177/0954410020927125

44. 党天骄, 刘振, 周学文, 孙亚川, 李俊, 高超声速火箭橇导流板气动参数数值研究.固体火箭技术, 2020, 43(03):355-363.

43. Zhen Liu*, Aeroacoutsics Characteristics of Large Rocket Jet, Frontiers in Applied Mechanics, 2020, Book Chapter, Pp.95. The Fifth International Conference on Frontiers in Applied Mechanics, Sep. 24th-27th 2020, Xi’an, China. (特邀报告)

42.党天骄,刘振,赵鹏刚,周学文,吕水燕,高超声速火箭橇气动特性数值与风洞试验研究,第十九届全国高超声速气动力热学术交流会,厦门,20201125-28.

2019

41. Dong Yang, Zhen Liu*, Chen Bu and Zhao Shanyong, Experimental and computational investigation on interaction between nano rotor and aerodynamic rudder, International Journal of Micro Air Vehicles2019,11(4):1-12.

40. Sunyachuan, Zhen Liu*, Bingfei Li, Longlei Dong, Fang Ren, Snap-through boundaries of metal plates under thermo-acoustic load based on probability theory, Thin-Walled Structures, 2019(144), 106323.

39. Zhao Shanyong, Zhen Liu*, Dang Tianjiao. Unsteady Flow Mechanism Investigation on Pitching-Blade Rigid Nano Rotor. Lecture Notes in Electrical Engineering, 2019, 459:836-853.

38. 党天骄,刘振*,李世琪,赵善勇,李俊,低空长航时无人机螺旋桨优化及推进性能分析中国力学大会,杭州,2019825-28.

37. 孙亚川,刘 振*,刘振皓,任方,基于延迟脱体涡方法的超声速进气道脉动压力研究,中国力学大会,杭州,2019825-28.

36. 李俊,刘 振*,毛承元,沈琳,胡迪科,高速火箭发动机喷流噪声预测研究,中国力学大会,杭州,2019825-28.

2018

35. Zhen Liu*, Chen Bu, Xiangxu Kong, Dong Yang, Bingfei Li, Computational Investigation of Noise Interaction for a Nano Counter-rotating Rotor in a Static Condition, International Journal of Computational Materials Science and Engineering, 2018, 7(2).

34. Zhen Liu, Teng Yong Ng, Zishun Liu*, Preface: Advances in computational aerospace materials science and engineering, International Journal of Computational Materials Science and Engineering, 2018, 7(2).

33. 刘振*,杨东,卜宸,低雷诺数下超微型复合材料旋翼流固耦合分析研究,振动工程学报,2018,312):283-290.

32. 杨东,刘振*,杨士斌,孙晓哲. 客机货仓火灾时期污染物的非稳态扩散规律研究,系统仿真学报2018, 30(1)278-284.

31. Shanyong Zhao, Zhen Liu*, Chen Bu, Penglei Che, Tianjiao Dang, Unsteady Flow Mechanism Investigation on Bio-inspired Motion of Nano Rotor, Asia-pacific International Symposium on Aerospace Technology, Oct. 16-18, 2018, Chengdu, China.

30. Zhen Liu*, P. Che, B. Li, S. Zhao, T. Dang, C. Bu, Propulsion Performance Investigation of Bio-inspired Nano Rotor Base on Fluid-Structure Interaction, 10th International Micro-Air Vehicles Conference, 2018.

29. Zhen Liu*, Multiple Mechanical Environments Investigation for Flight Vehicles, Frontiers in Applied Mechanics, 2018, Book Chapter, Pp.68. The Fourth International Conference on Frontiers in Applied Mechanics, Norway.

2017

28. Zhen Liu*, Chen Bu, Xiangxu Kong, Dong Yang, Aeroacoustics Investigation on Nano Coaxial Rotor in Hover, 9th International Micro Air Vehicle Conference and Competition, Toulouse, 2017.

27. Zhen Liu*, Yachuan Sun, Dynamic Snap-through Nonlinear Random Response of Composite Panels to Acoustic and Thermal Loads, 18th International Symposium on Applied Electromagnetics and Mechanics, Chamonix, 2017.

26.孙亚川,刘振*,杨东,李冰霏,车鹏磊,热噪声载荷下飞行器薄壁结构跳变边界研究, 中国力学大会,2017.

25.杨东,刘振*,周学文,朱莹,高超声速火箭橇地面轨道效应研究,(第三届)中国航空科学技术大会,2017.

24.杨东,刘振*,李冰霏,孙亚川,车鹏磊,鸭翼式火箭橇气动特性数值模拟, 中国力学大会,2017.

2016

23. Dong Yang, Zhen Liu*, Interaction between Nano Rotor and Aerodynamic Rudder, 8th International Micro Air Vehicle Conference and Competition, Beijing, 2016.

2015

22. Zhen Liu*, Longlei Dong, Jianping Zhao and Guirong Yan. Components interaction effect evaluation of a small-capacity five-component internal balance system, Proc IMechE Part C: J Mechanical Engineering Science, 2015, 229(1) :125–135.

21. Bu ChenZhen Liu*. Experimental And Computational Investigation On Dynamic Characteristics Of Composite Nano RotorInternational Journal of Aerospace and Lightweight Structures, 2015, 5(3): 35-51.

20. 朱莹,刘振*,唐瑞卿,卜宸,董龙雷. 大迎角下细长旋成体气动特性估算的方法研究,飞行力学,2015, 33(3)213-217.(中文核心)

19. 董龙雷*刘振,闫桂荣. 高超声速飞行器综合环境预示方法. 临近空间科学与工程,2015, 6(4):45-51.

18. Zhen Liu*, Ying Zhu and Xianglong Huang , Chen Bu, Dong Yang, Computational Investigation of Thermal and Electromagnetic Environment of Inertial Platform, ISEM, Japan, 2015.

17. 刘振*,邵康,卜宸,杨东,高速红外窗口流固耦合下的热响应研究, 中国力学大会,2015.

16. 邵康,刘振*,董龙雷,王成,燃烧室结构高温环境下响应特性研究, 中国力学大会,上海,2015.

2014

15. Zhen Liu*, Longlei Dong, Jean-marc Moschetta, Jianping Zhao and Guirong Yan. Optimization of Nano-Rotor Blade Airfoil Using Controlled Elitist NSGA-II. International Journal of Micro Air Vehicle, 2014, 6(1):1-13.

14. Wu Yongxiang, Yang Baokun, Zhen Liu*, Wang Cheng, Dong Longlei*. Numerical and experimental study of electromagnetic-thermal coupling forelectromagnetic shaker. International Journal of Applied electromagnetics and Mechanics, 2014, 45(1-4):69-74.

2013

13. Zhen Liu*, Longlei Dong, Jean-Marc Moschetta, Jianping Zhao and Guirong Yan. Evaluation of Nano-scale rotors and motors at static conditionInternational Journal of Micro Air Vehicles, 2013,5(3):193-206.

12. Zhen Liu*, Longlei Dong, Jean-marc Moschetta, Jianping Zhao, Nano Rotor Blade Airfoil Optimization, 7th International Micro Air Vehicle Conference and Competition, Toulouse, 2013.

11. 刘 振*,黄翔龙,惯性平台封闭空间内的流固耦合传热研究,中国力学大会,西安,2013.

2012

10. Zhen Liu*, Roberto Albertani, Jean-Marc Moschetta, Chinnapt Thiyopas, and Min Xu., Experimental and Computational Evaluation of Small Micro Coaxial Rotor in Hover. Journal of Aircraft, 2011, 48(1):220-229.

9. Zhen Liu*, Jean-marc Moschetta and Min Xu. Design, Fabrication and Hovering Performance Study of Nano Coaxial Rotor. International Journal of Aerospace and Lightweight Structures, 2011, 1(1): 1-15.

8. 刘振*, 徐敏, 拦截导弹热保护罩分离对红外窗口影响研究 工程力学,2011, 28(7): 252-256.

7. Zhen Liu*, Jean-Marc Moschetta, Nathan Chapman, Roger Barenes and Min Xu. Design of Test Benches for the Hovering Performance of Nano-Rotors. International Journal of Micro Air Vehicle, 2010, 2(1): 17-32.

6. Zhen Liu*, and Min Xu. Nano Air Vehicle Wing Concepts Design and Experimental study of Nano Rotor Hovering Performance. Proceeding of Mechanical and Aerospace Engineering. Chengdu: IEEE Press, 2010(5): 220-224.

5. 刘振*, 徐敏, Jean-marc Moschetta, 杨士斌,“纳米飞行器概念设计研究”,科学通报,2010, 55(34), 3257-3268. (中文核心)

4. Zhen Liu*, and Jean-Marc Moschetta. Rotary vs. Flapping-wing Nano Air Vehicles: Comparing Performances. European Micro Aerial Vehicle Conference and Flight Competition 2009. Delft : Delft University Press, 2009.

3. Zhen Liu*, Jean-Marc Moschetta, Nathan Chapman and Roger Barenes. Design of Test Benches for the Hovering Performance of Nano-Rotors. European Micro Aerial Vehicle Conference and Flight Competition 2009. Delft : Delft University Press, 2009.

2. 罗金玲,徐敏*,戴梧叶,刘振. 高速飞行器等离子体减阻的数值模拟研究, 宇航学报,2009, 30(1) :119-122.

1. 徐敏,刘振*基于运动嵌套网格的二维导弹热保护罩分离, 计算力学学报, 2007, 24(3): 375-378.

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部分主持科研项目

基础科研重大项目课题(2024-2027):XXXX研究

基础科研项目(2023-2025):XXXX研究

纵向技术项目(2022-2025):XXXX技术研究

基础科研项目(2021-2022):XXXX研究

基础科研重大项目课题(2017-2020):XXXX测试技术研究       

国家自然基金面上项目(2018-2021):超微型旋翼仿生智能膜桨叶非稳态环量控制机理研究

国家自然基金青年项目(2014-2016):极低雷诺数下超微型旋翼桨叶仿生运动流动控制机理

重大基础研究计划子专题(2016-2019):XXXX研究

预研基金(2013-2019):XXXX失效机理研究

教育部博士点基金(2014-2016):极低雷诺数高速旋转仿生桨叶的非稳态流动机制

陕西省自然基金(2013-2015):极低雷诺数下超微型共轴双旋翼的流场干扰机理

国家重点实验室开放课题(2013-2016):典型薄壳腔体结构的多场耦合动力学环境

企业合作项目(2020-2021):XXXX结构优化研究

企业合作项目(2016-2017):座舱空气污染物与烟雾非线性扩散规律研究

企业合作项目(2015-2016):超声速进气道多场耦合分析方法研究

企业合作项目(2013-2015):XXXX特性研究

国际合作

主要国际合作单位:

1、法国国立高等航空航天学院(Institut Supérieur de l'Aéronautique et de l'Espace

2美国俄勒冈州立大学(Oregon State University

3、澳大利亚新南威尔士大学(The University of New South Wales)

4、泰国karsetsart Universtiy

5、意大利米兰理工大学(Politecnico di Milano)