Application of Pendulum Theory to a Model of Overturning of a Rectangular Hull

Journal of the Japan Society of Naval Architects and Ocean Engineers Pub Date : 1900-01-01 DOI:10.2534/jjasnaoe.33.55

Yuji Doya, T. Sawada

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Abstract

This paper reports an experimental study on application of pendulum theory to determine the possibility of overturning of a rectangular hull model. The model was not a hull of a self-propelling ship but was a pontoon used as a non-self-navigating work vessel. The model begins to list when an unbalanced load is applied. It can then either stabilize in an inclined state or continue to overturn, throwing the unbalanced load midway, and ﬁnally stabilizing in the inverted position. In a mid-air experiment, this correlation was observed for two motion scenarios: pendulum and rotational motion. The two motions were reproduced by changing the mass of the load. The experimental results closely match those of analysis performed using the Runge-Kutta method. In an experiment in a water tank, the change in the mass of the load applied to the model hull and the eﬀect of buoyancy were considered for analysis. Both experimental results and analytic results exhibited the same tendency for overturning. The validity of our analytical method using pendulum theory was conﬁrmed by the consistency between these relationships.

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钟摆理论在矩形船体倾覆模型中的应用

本文报道了应用摆理论确定矩形船体模型倾覆可能性的实验研究。该模型不是自航船的船体，而是用作非自航工作船的浮筒。当应用不平衡负载时，模型开始列出。然后，它可以稳定在倾斜状态或继续翻转，中途抛出不平衡负载，最终稳定在倒立位置。在一个半空中实验中，这种相关性在两种运动情况下被观察到:摆和旋转运动。这两种运动是通过改变负载的质量来重现的。实验结果与龙格-库塔法的分析结果吻合较好。在水箱试验中，考虑了模型船体所受载荷质量的变化和浮力的影响进行了分析。实验结果和分析结果均表现出相同的推翻倾向。这些关系的一致性证实了我们用摆理论分析方法的有效性。

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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Journal of the Japan Society of Naval Architects and Ocean Engineers

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