Research Fields

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.西安交通大学学报,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.

Research Team

11. 一种复合材料板的模态密度估算方法及系统 CN2023107207312

10. 一种基于voronoi的纤维增强复合材料3D打印机翼及其设计方法 CN202211152056X

9. 基于概率理论的热噪声载荷下薄壁结构突弹跳变预测方法 ZL2018 11637938.9

8. 快速的高精度轨道静态不平顺特性测量系统与分析方法ZL2018100119201

7. 一种火箭橇轨道路谱用复现装置及其方法 ZL201810708438.3

6. 一种自适应悬挂重力补偿机构及方法 ZL201810595530.3

5. 一个超微型旋翼俯仰运动推进性能的测试装置  ZL201611030137.7

4. 基于图像处理的超声速流场预测准确度判定装置及方法 ZL2016120601654280 

3. 实现陀螺仪均匀温度场的多加热点协调温度控制方法ZL2015103333114

2. 一种获取金属结构内部三维温度场的方法  ZL201410163865.X

1. 结构的节点振动控制方法、振动控制器及其应用  ZL201310073363

Host

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

Blank1

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)