- 相關推薦
Active Aerothermoelastic Control of Hypersonic Double-wedge Lifting Surface
Designing reentry space vehicles and high-speed aireraft requires special attention to the nonlinear thermoelastic and aerodynamic instability of their structural components. The thermal effects are important since temperature environment brings dramatic influences on the static and dynamic behaviors of flight structures in supersonic/hypersonic regimes and is likely to cause instability, catastrophic failure and oscillations resulting in structural failure due to fatigue. In order to understand the dynamic behaviors of these "hot"structures, a double-wedge lifting surface with combining freeplay and cubic structural nonlinearities in both plunging and pitching degrees-of-freedom operating in supersonic/hypersonic flight speed regimes has been analyzed. A third order piston theory aerodynamic isused to estimate the applied nonlinear unsteady aerodynamic loads. Also considered is the loss of torsiunal stiffness that may be incurredby lifting surfaces subject to axial stresses induced by aerodynamic heating. The aerodynamic heating effects are estimated based on theadiabatic wall temperature due to high speed airstreams. As a recently emerging technology, the active aerothermoelastic control isaimed at providing solutions to a large number of problems involving the aeronautica Faerospace flight vehicle structures. To preventsuch damaging phenomena from occurring, an application of linear and nonlinear active control methods on both flutter boundary andpost-flutter behavior has been fulfilled. In this paper, modeling issues as well as numerical simulation have been presented and pertinent conclusions outlined. It is evidenced that a serious loss of torsional stiffness may induce the dynamic instability; however active controlcan be used to expand the flutter boundary and convert unstable limit cycle oscillations (LCO) into the stable LCO and/or to shift the transition between these two states toward higher flight Mach numbers.
作 者: Laith K Abbas Chen Qian Piergiovanni Marzocca Gürdal Zafer Abdalla Mostafa 作者單位: Laith K Abbas,Chen Qian(Institute of Vibration Engineering Research, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China)Piergiovanni Marzocca(School of Engineering Mechanical and Aeronautical Engineering Dept. Clarkson University, Potsdam, NY13699, USA)
Gürdal Zafer,Abdalla Mostafa(Aerospace Structures, Faculty of Aerospace Engineering, Delft University of Technology, Delft 2629HS, The Netherlands)
刊 名: 中國航空學報(英文版) ISTIC 英文刊名: CHINESE JOURNAL OF AERONAUTICS 年,卷(期): 2008 21(1) 分類號: V2 關鍵詞: active control aerothermoelastic analysis freeplay hypersonic speed【Active Aerothermoelastic Control of 】相關文章:
GA-Based Model Predictive Control of Semi-Active Landing Gear04-30
Application of High-speed Solenoid Valve to the Semi-active Control of Landing Gear04-28
Autonomous Control Reconfiguration of Aerospace Vehicle Based on Control Effectiveness Estimation04-30
Remote Control Guidance Law Design Using Variable Structure Control04-27
英語作文:Population control 人口控制05-16
Optimization of control parameters for petroleum waste composting04-28
Study on characteristics of controllable active thermoatmosphere of a vitiated coflow combustor04-27
Feedforward attitude control for a TDRS with mobile antennas04-27
Performance of dispersed Rayleigh interferometer on the active cophasing and alignment testbed04-28
Intelligent NURBS Interpolator Based on the Adaptive Feedrate Control04-30