砰的一声
物理
船体
机械
波峰
垂直位移
流离失所(心理学)
冲击压力
光滑粒子流体力学
波浪和浅水
振幅
质点位移
俯仰角
结构工程
唤醒
相(物质)
声学
不稳定性
攻角
震级(天文学)
波浪荷载
岩土工程
波传播
瞬态(计算机编程)
梁(结构)
浪涌
影响
地质学
波高
弯矩
低谷(经济学)
作者
Jiahe Liu,Jianyong He,Yao Hong,Zhaoxin Gong
出处
期刊:Physics of Fluids
[American Institute of Physics]
日期:2026-01-01
卷期号:38 (1)
被引量:1
摘要
The safety of seaplane operations during water landings is critically influenced by wave-induced slamming loads, particularly in emergency scenarios. This study employs a validated numerical model incorporating heave and pitch motions to investigate the effects of wave phase angle, initial water contact point, and pitch angle on slamming dynamics. Peak vertical overloads are most severe during wave crest and trough landings due to rapid expansion of the hull–wave contact area. A water particle velocity factor, accounting for the relative motion between the seaplane and waves, is introduced to establish a linear correlation between peak impact loads and wetted area for nearly all phase angles. The results demonstrate that forward displacement of the initial water contact point reduces peak loads, while variations in pitch angle exhibit non-monotonic behavior. Maximum loading occurs at 0° pitch due to full hull engagement, while a 6° pitch induces a localized near-parallel contact of the aftbody with the wave surface, resulting in a rebound in the peak load. The results provide support for predicting transient loads and optimizing structural designs to withstand slamming loads.
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