Toward an Efficient Method for F-16 Limit Cycle Oscillation Prediction

IF 1.5 3区 工程技术 Q2 ENGINEERING, AEROSPACE
Daniel Kariv, Donald L. Kunz, Michael Iovnovich
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引用次数: 0

Abstract

This study presents the development and validation of a computationally efficient prediction framework for the well-known nonlinear F-16 limit cycle oscillation (LCO) phenomenon. The framework relies on a simple physical working model that has been suggested and demonstrated in the past according to which LCO is primarily a flutter instability that is bounded by the existence of nonlinear structural damping (NSD), although potentially affected by nonlinear aerodynamic effects as well. In the framework developed herein, the NSD model is derived and calibrated using a novel method that simplifies the process and allows applicability of the derived NSD models for multiple aircraft download cases. Good LCO prediction capabilities are obtained using the suggested method in terms of LCO levels and trends with flight conditions, as demonstrated using four F-16 test configurations. This framework also allows several practical benefits, which makes it particularly suitable for industrial-level applications.
f16极限环振荡预测的一种有效方法
本研究提出了F-16众所周知的非线性极限环振荡(LCO)现象的计算效率预测框架的开发和验证。该框架依赖于一个简单的物理工作模型,该模型在过去已经被提出和证明,根据该模型,LCO主要是由非线性结构阻尼(NSD)的存在所限制的颤振不稳定性,尽管也可能受到非线性气动效应的影响。在本文开发的框架中,使用一种新的方法推导和校准NSD模型,该方法简化了过程,并允许推导的NSD模型适用于多种飞机下载情况。根据LCO水平和随飞行条件变化的趋势,使用建议的方法获得了良好的LCO预测能力,并使用四种F-16测试配置进行了演示。该框架还提供了一些实际好处,这使得它特别适合工业级应用程序。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Aircraft
Journal of Aircraft 工程技术-工程:宇航
CiteScore
4.50
自引率
31.80%
发文量
141
审稿时长
6 months
期刊介绍: This Journal is devoted to the advancement of the applied science and technology of airborne flight through the dissemination of original archival papers describing significant advances in aircraft, the operation of aircraft, and applications of aircraft technology to other fields. The Journal publishes qualified papers on aircraft systems, air transportation, air traffic management, and multidisciplinary design optimization of aircraft, flight mechanics, flight and ground testing, applied computational fluid dynamics, flight safety, weather and noise hazards, human factors, airport design, airline operations, application of computers to aircraft including artificial intelligence/expert systems, production methods, engineering economic analyses, affordability, reliability, maintainability, and logistics support, integration of propulsion and control systems into aircraft design and operations, aircraft aerodynamics (including unsteady aerodynamics), structural design/dynamics , aeroelasticity, and aeroacoustics. It publishes papers on general aviation, military and civilian aircraft, UAV, STOL and V/STOL, subsonic, supersonic, transonic, and hypersonic aircraft. Papers are sought which comprehensively survey results of recent technical work with emphasis on aircraft technology application.
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