Aeroelastic stability analysis of hingeless rotor blades in hover using fully intrinsic equations and dynamic wake model

Amoozgar Mohammadreza; Shahverdi Hossein

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Aeroelastic stability analysis of hingeless rotor blades in hover using fully intrinsic equations and dynamic wake model

机译：基于全内在方程和动态尾流模型的悬臂无铰链转子叶片气动弹性稳定性分析

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Purpose This paper aims to develop a new approach for aeroelastic analysis of hingeless rotor blades. Design/methodology/approach The aeroelastic approach developed here is based on the geometrically exact fully intrinsic beam equations and three-dimensional unsteady aerodynamics. Findings The developed approach is accurate, fast and very useful in rotorcraft aeroelastic analysis. Originality/value This beam formulation has been never combined with three-dimensional aerodynamic model to be used for aeroelastic analysis of blades. In addition, it is possible to handle the composite blades, as well as blades with initial curvatures and twist with this proposed formulation.

机译：目的本文旨在为无铰链转子叶片的气动弹性分析开发一种新方法。设计/方法/方法此处开发的气动方法基于几何精确的完全固有的梁方程和三维非定常空气动力学。结果所开发的方法准确，快速并且在旋翼航空器气动弹性分析中非常有用。独创性/价值这种梁公式从未与用于叶片气动弹性分析的三维空气动力学模型相结合。另外，用该建议的配方可以处理复合叶片以及具有初始曲率和扭曲的叶片。

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来源
《Aircraft engineering》 |2019年第8期|1113-1121|共9页
作者
Amoozgar Mohammadreza; Shahverdi Hossein;
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作者单位

Swansea Univ, Swansea, W Glam, Wales;

Amirkabir Univ Technol, Tehran, Iran;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Aeroelastic stability; Finite-state unsteady aerodynamics; Fully intrinsic beam equations; Hingeless rotor;

机译：空气弹性稳定性;有限状态不稳定的空气动力学;完全内在光束方程式;无望转子;
入库时间 2022-08-18 04:29:43

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专利

1. Aeroelastic Stability of Hingeless Rotor Blades in Hover Using Fully Intrinsic Equations [J] . Amoozgar M. R., Shahverdi H., Nobari A. S. AIAA Journal . 2017,第7期

机译：使用完全本征方程的无铰链转子叶片的气动弹性稳定性。
2. The effect of a movable mass on the aeroelastic stability of composite hingeless rotor blades in hover [J] . Amoozgar M. R., Shaw A. D., Zhang J., Journal of Fluids and Structures . 2019,第期

机译：可动质量对悬停中复合铰接转子叶片的空气弹性稳定性的影响
3. Fluid-structure interaction analysis of hingeless rotor blades in hover considering wake effects [J] . Yoo S.-J., Jeong M.-S., Lee I. Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2010,第13期

机译：考虑尾流影响的无铰链转子叶片流固耦合分析
4. Aeroelastic Analysis of Composite Hingeless Rotor Blades in Hover Using 3-D Aerodynamics [C] . Ji-Hoon Choi, In Lee, Byoung-Gyu Cho 複合材料シンポジウム . 2002

机译：使用3-D空气动力学在悬停中复合铰接式转子叶片的空气弹性分析
5. UNSTEADY AERODYNAMICS IN TIME AND FREQUENCY DOMAINS FOR FINITE-TIME ARBITRARY MOTION OF HELICOPTER ROTOR BLADES IN HOVER AND FORWARD FLIGHT (AEROELASTICITY, NONLINEAR PERIODIC SYSTEMS, CASCADE AERO, MODELING, RATIONAL APPROXIMATIONS). [D] . ASGHAR-HESSARI-DINYAVARI, MEHRAN. 1985

机译：悬停和向前飞行中直升机转子叶片有限时任意运动的时间和频率域非定常气动特性（气动弹性，非线性周期系统，级联气动，建模，有理近似）。
6. Floquet stability analysis of the longitudinal dynamics of two hovering model insects [O] . Jiang Hao Wu, Mao Sun 2012

机译：两种悬停模型昆虫纵向动力学的球稳定性分析。
7. Static Aeroelastic Analysis of Hingeless Rotor System in Hover Using Free-Wake Method [O] . 2008

机译：使用自由唤醒方法悬停悬停中环形转子系统的静态空气弹性分析
8. Effects of Dynamic Stall and Structural Modeling on Aeroelastic Stability ofElastic Bending and Torsion of Hingeless Rotor Blades with Experimental Correlation [R] . Barwey, D., Gaonkar, G. H. 1992

机译：动态失速和结构模型对无铰链转子叶片弹性弯曲和扭转气动弹性稳定性的影响

Aeroelastic stability analysis of hingeless rotor blades in hover using fully intrinsic equations and dynamic wake model

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