直升机⁃浮囊组合体静水着水冲击过程分析
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V275.1

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航空科学基金资助项目(20200023052002);江苏高校优势学科建设工程资助项目


Analysis of Calm Water Impact of Helicopter‑Float Combination
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    摘要:

    采用任意拉格朗日-欧拉方法和罚函数耦合方法对静水环境中某型直升机-浮囊着水过程进行数值模拟,并对直升机和浮囊的力学特性及流场特性进行分析。结果表明:机体着水前,浮囊通过压缩囊内气体、与水相互作用及自身变形起到了吸能缓冲的作用,相对未安装浮囊,可使直升机冲击过载峰值降低69%;机体着水初期,水体高压区集中在机体底部、浮囊前端和浮囊后安装点附近。机体底部出现两处高压区且压力沿机体宽度方向呈弧形状分布,着水过程中浮囊应力较大区域集中在前/后安装点附近及它们之间的“弧形”区域,两浮囊未发生破损。浮囊最大等效应力为193.9 MPa,出现在浮囊前安装点附近。

    Abstract:

    The arbitrary Lagrangian-Euler method and penalty coupling method are used to simulate the helicopter-floats landing on calm water, and the mechanical and flow field characteristics of helicopters and floats are analyzed. Results show that before water impact of the helicopter, the floats play a role of energy-absorbing and buffering by compressing the air in the floats which is deformed by water. Compared with helicopters without floats, the peak impact acceleration of helicopters can be reduced by 69%. At the initial stage of landing, the high-pressure areas of the water are near the bottom of the helicopter, the front end of the floats and the back-installation point. There are two high-pressure areas at the bottom of the helicopter, and the distribution of pressure along the width of the body has a clearly three-dimensional effect. Moreover, the large stress concentration occurs at the front/back installation points and an arc area between them. The maximum equivalent stress is 193.9 MPa, which appears near the front installation point of the float, and the floats are not damaged.

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  • 在线发布日期: 2022-05-06
  • 出版日期: 2022-04-30
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