固体力学与飞行器总体设计

民用飞机弹性结构水上迫降试验载荷研究

  • 徐文岷 ,
  • 李凯
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  • 上海飞机设计研究院 强度设计研究部, 上海 201210
徐文岷男,硕士,工程师。主要研究方向:民用飞机水上迫降试验与数值模拟分析,飞机起落架强度。Tel:021-31225958 E-mail:xuwenmin@comac.cc;李凯男,本科,研究员。主要研究方向:民用飞机水上迫降试验与数值模拟分析,飞机结构强度。Tel:021-31225844 E-mail:likai@comac.cc

收稿日期: 2013-07-18

  修回日期: 2013-10-07

  网络出版日期: 2013-10-21

基金资助

工信部民机科研项目

Research on Civil Aircraft Elastic Structure Ditching Test Load

  • XU Wenmin ,
  • LI Kai
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  • Stress Department, Shanghai Aircraft Design and Research Institute, Shanghai 201210, China

Received date: 2013-07-18

  Revised date: 2013-10-07

  Online published: 2013-10-21

Supported by

CCTIME Civil Aircraft Research Project

摘要

刚体模型和弹性体模型的载荷传递方式不同,为了研究刚体模型和弹性结构模型对飞机水上迫降载荷的影响,根据动力相似性原理设计制造了刚体模型,并根据强度相似性原理设计制造了弹性结构部件,通过气囊加载试验系统验证了弹性结构部件满足强度相似设计要求。通过水上迫降模型试验测得加速度-时间历程曲线,使用傅里叶变换处理试验数据得到加速度峰值。根据刚体模型的试验数据分析,飞机以初始俯仰角12°、襟翼为着陆构型、较小的下沉速度和中重心状态入水时,飞机在水上迫降过程中受到的载荷较小。研究表明:带弹性结构模型和刚体模型所得到的飞机载荷有明显的不同,带弹性结构模型得到的垂向加速度峰值明显低于刚体模型。这种现象主要是由于机体着水底部弹性结构变形吸收了大量的能量。

本文引用格式

徐文岷 , 李凯 . 民用飞机弹性结构水上迫降试验载荷研究[J]. 航空学报, 2014 , 35(4) : 1012 -1018 . DOI: 10.7527/S1000-6893.2013.0416

Abstract

Load transfer is different between rigid model and elastic structure model. In order to research the impact of rigid model and an elastic structure model on ditching loads, a rigid model is designed and manufactured, based on the principle of dynamic similarity and the elastic structural part is designed and manufactured based on the principle of strength similarity, which is validated by an airbag loading test system. Through the ditching model tests acceleration-time history curves are obtained and peak acceleration value is obtained by processing the experimental data with Fourier transform. According to the rigid model experimental data analysis, the aircraft is subjected to a relatively small load in ditching with the following parameters: pitch 12°, flaps in landing configuration for minimum speed and middle center of gravity. The results indicate that the load is obviously different on the model with an elastic structural part and on the rigid model. The peak value of vertical acceleration of the model with elastic structure part is obviously smaller than that of the rigid model. This phenomenon is mainly due to energy absorption by the bottom elastic structure of fuselage.

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