M.A.L.E U.C.A.V主起落架概念设计与分析

Asim Mehmood, Gohar Majeed, K. Mehmood, Muhammad Adeel Khan
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引用次数: 0

摘要

起落架是无人作战飞行器(UCAV)的主要部件之一,它在非作战阶段、起飞阶段和最关键的着陆阶段起着支撑重量、减震结构、滑行和稳定地面支撑的作用。本文介绍了符合C-23合格证规范的中高空长航时无人作战飞行器(MALE UCAV)的概念设计、结构初步设计、尺寸与应力分析、有限元分析。MALE无人驾驶飞机的设计是由不同的小组进行的,这项研究是该计划的一部分。通过满足预设的主起落架重量、高度和位置约束,进行了概念设计。选择三周期布局构型,计算出轮轨、轴距等几何参数。对所有可能的加载条件进行了详细的研究,并选择了最关键和最大载荷进行尺寸和应力分析。选择了两种候选材料,并基于法向应力和剪切应力准则,同时进行了尺寸和应力分析,从而得到了理想的主起落架支柱设计。对设计的三种型号起落架进行了有限元分析,选择了符合要求的设计方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Main Landing Gear Conceptual Design and Analysis for M.A.L.E U.C.A.V
Among the major components for any Unmanned Combat Aerial Vehicle (UCAV) landing gear is of significant importance, as it performs the function of supporting weight, shock-absorbing structure, taxiing, and providing stable ground support during the nonoperational period, Takeoff and at the most critical phase of Landing. This study presents the Conceptual Design, Preliminary Structure Design, Sizing and Stress Analysis, Finite Element Analysis for Medium Altitude Long Endurance Unmanned Combat Aerial Vehicle (MALE UCAV) adhering to the C-23 Certificate Specification. The MALE UCAV design was carried out by different groups and this study is a part of that program. The conceptual design was carried out by fulfilling the preset constraints of Main Landing Gear weight, its height, and location. Tri-cycle layout configuration was selected and geometric parameters such as Wheel track and Wheel base and other parameters were worked out. A detailed study of all the possible loading conditions was conducted and the most critical and maximum loads were selected for sizing and stress analysis. Two candidate materials were selected and based on the Normal stress and Shear stress criteria, simultaneously sizing and stress analysis was carried out leading to the desirable design of the Main Landing Gear strut. Finite Element Analysis was performed on the designed Landing Gear for three models and the design fulfilling our requirements was selected.
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