航空航天工业中飞机机翼内襟翼纳米材料的计算分析与原型试验

Q4 Engineering

International Journal of Mechatronics and Automation Pub Date : 2013-12-01 DOI:10.1166/JOM.2013.1025

J. Li

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引用次数: 3

摘要

飞机在高空和高速空中飞行，但需要低速飞行才能安全着陆。为了提高飞机的飞行效率，必须对机翼内襟翼的材料和设计进行精心设计，使飞机既能在空中高速飞行，又能在较低的空速下保持较强的升力，从而安全着陆。机翼内襟翼是飞机的关键部件，以往的研究表明，内襟翼损坏会导致飞机功能失效，甚至在飞行和降落过程中造成致命事故。由于翼内襟翼的缺陷会造成潜在的安全隐患，因此坚固的翼内襟翼材料和良好的翼内襟翼设计对于保证飞行安全至关重要。本文通过计算机辅助三维建模、数值模拟和样机实验，对纳米涂层材料在飞机机翼内襟翼设计与开发中的应用进行了研究和分析，以改进当前和未来机翼内襟翼的设计与开发。

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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Computational Analysis and Prototype Experiment of Nanomaterial for Aircraft Wing Inboard Flap in Aerospace Industry

The aircrafts fly at both high altitude and fast airspeed in the air but needs slow airspeed in order to land safely. To increase aircraft fly efficiency, the material and design of wing inboard flap should be carefully engineered to provide aircraft with high speed flight in the air but keep strong lift with lower airspeed in order to safely land to the ground. The wing inboard flap is a critical part for the aircrafts and the previous researches showed that the damaged inboard flap can lead aircraft function failure and even cause fatal accidents in the flight and landing processes. Since the defects in wing inboard flap can cause potential safety hazards, the strong inboard flap materials and good inboard flap design to keep safe flight is very important. This paper studies and analyzes the nanocoated material applied in the design and development of aircraft wing inboard flap by using computer-aided 3D modeling, numerical simulation, and prototype experiment to improve current and future wing inboard flap design and development.

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来源期刊

International Journal of Mechatronics and Automation Engineering-Industrial and Manufacturing Engineering

CiteScore

1.60

自引率

0.00%

发文量