Recent Developments of an Aircraft Fuselage along Theoretical, Experimental and Numerical Approach - A Review

Universal Journal of Mechanical Engineering Pub Date : 2019-12-01 DOI:10.13189/ujme.2019.071403

Varun Potty, Sohan Angelo, P. Rao, G. Srinivas

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引用次数: 1

Abstract

Expressed in nature’s infinite subtleties, the Fuselage draws its inspiration from the streamlined body of a bird or a fish, channelizing the flow of air around, enabling its ease in flight. Spanning most of the aircrafts structure, it plays a crucial role in the ferrying of people and cargo, simultaneously balancing the shears due to the empennage and wing structures all in mid-air. Its structural integrity is often questioned by failures due to load or bad air during maneuvers, causing instability which has led many to intensively explore and develop an ideal fuselage. The behaviour of the fuselage is crucially determined by the structural integrity and aerodynamic performance. This paper is an attempt at collating the recent technological advances pertaining to the fuselage. We’ve streamlined and categorised the wide-ranging scholarly articles by three fundamentally varying approaches - Theoretical, Experimental and Numerical. The theoretical approach saw the authors test out their hypothesis by utilizing and constructing various mathematical models using scientific principles with no verification by actual experimentation or simulation work. The experimental approach pertains to those papers whose authors devised experiments, whose data was used to draw distinct conclusions. The numerical approach mainly dealt with heavy computational analysis using FEM and CFD analysis. Therefore, this paper serves as a compendium for researchers and developers attempting to familiarise themselves with the current advancements and developments in domain of fuselage technology.

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飞机机身的理论、实验和数值研究进展综述

表达了大自然的无限微妙，机身从鸟或鱼的流线型身体中汲取灵感，引导周围的空气流动，使其能够轻松飞行。横跨飞机的大部分结构，它在人员和货物的运输中起着至关重要的作用，同时平衡由于尾翼和机翼结构而产生的剪切力。它的结构完整性经常受到质疑，由于载荷或恶劣的空气在机动过程中失效，导致不稳定，导致许多人集中探索和开发一种理想的机身。机身的性能在很大程度上取决于结构完整性和气动性能。本文试图整理有关机身的最新技术进展。我们通过三种基本不同的方法对广泛的学术文章进行了精简和分类-理论，实验和数值。理论方法是作者利用科学原理建立各种数学模型来验证他们的假设，而没有通过实际实验或模拟工作进行验证。实验方法适用于那些作者设计实验的论文，这些实验的数据被用来得出不同的结论。数值方法主要处理大量的计算分析，包括有限元和CFD分析。因此，本文作为一个纲要，为研究人员和开发人员试图熟悉目前的进展和发展领域的机身技术。

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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Universal Journal of Mechanical Engineering

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