考虑结构变形的跨域变形飞机客舱结构进水过程的数值分析

IF 2.1 3区 工程技术 Q2 ENGINEERING, AEROSPACE
Yu Zhang, Ziyi He, Chen Wang, Qi Hu, Songwen Dong, X.X. Shen, Jun Zhang, Taoxi Wang
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引用次数: 0

摘要

在跨域变形飞机的进水过程中,飞机撞击水面时会产生巨大的冲击力,这将可能导致机舱结构变形,并可能损坏机舱结构或机载设备。因此,有必要对机舱结构的进水过程进行研究。本文分析了进水过程中流体载荷的变化以及相应的结构响应。首先,建立了进水过程的数值模型,并通过将结果与实验数据进行对比,验证了建模方法。建立了一个经验公式,将冲击载荷与进水速度相关联。然后,采用双向耦合方法对进水过程进行了流固耦合分析。然后研究了结构变形与进水过程之间的关系。结果与未考虑结构变形的结果进行了比较。然后修改了经验公式,以反映变形的影响。结果表明,结构变形会分散冲击载荷,这代表了与刚性船舱结构不同的反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Numerical Analysis of the Water Entry Process of the Cabin Structure of the Trans-Domain Morphing Aircraft Considering Structural Deformation
During the water entry process of a trans-domain morphing aircraft, significant impact forces are generated when the aircraft hits the water surface, which will potentially cause the deformation of the cabin structure and might damage the structure or onboard devices. Thus, it is necessary to investigate the water entry process of the cabin structure. This paper analyses changes in fluid loads and the corresponding structural responses during the water entry process. Firstly, the numerical model is established for the water entry process and the modeling method is validated by comparing the results to the experimental data. An empirical formula is developed to correlate the impact loads with the water entry velocities. Then, fluid–structure interaction analysis of the water entry process is performed using a two-way coupling approach. The relationship between structural deformation and the water entry process is then investigated. The results are compared with those without considering the structural deformation. The empirical formula is then modified to reflect the effects of the deformation. The results show that structural deformation will disperse the impact load, which represents different responses compared to the rigid cabin structure.
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来源期刊
Aerospace
Aerospace ENGINEERING, AEROSPACE-
CiteScore
3.40
自引率
23.10%
发文量
661
审稿时长
6 weeks
期刊介绍: Aerospace is a multidisciplinary science inviting submissions on, but not limited to, the following subject areas: aerodynamics computational fluid dynamics fluid-structure interaction flight mechanics plasmas research instrumentation test facilities environment material science structural analysis thermophysics and heat transfer thermal-structure interaction aeroacoustics optics electromagnetism and radar propulsion power generation and conversion fuels and propellants combustion multidisciplinary design optimization software engineering data analysis signal and image processing artificial intelligence aerospace vehicles'' operation, control and maintenance risk and reliability human factors human-automation interaction airline operations and management air traffic management airport design meteorology space exploration multi-physics interaction.
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