Effect of Moving Ice Loads on the Plastic Capacity of a Ship’s Structure

B. Quinton, C. Daley, R. Gagnon
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引用次数: 10

Abstract

The IACS unified polar rules define the design ice load as a glancing impact on the bow shoulder. The load and structural response model in the polar rules ignore the tangential motions and assumes the interaction occurs at one location. If the impact duration were sufficient, the ice may “score” along the hull during a glancing impact. This paper examines the questions of how structure responds to moving loads, in comparison to normal loads. An explicit nonlinear numerical model was created and validated against full-scale physical experiments. Moving load scenarios were then simulated. The structure’s capacity to withstand moving loads causing “progressive damage” was found to be generally less than its capacity to withstand static loads.
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移动冰荷载对船舶结构塑性承载力的影响
IACS统一极地规则将设计冰荷载定义为对船首肩的掠射冲击。极性规则中的荷载和结构响应模型忽略了切向运动,并假设相互作用发生在一个位置。如果撞击持续时间足够长,冰可能会在掠向撞击期间沿着船体“划下”。本文考察了结构如何响应移动载荷的问题,与正常载荷相比。建立了显式非线性数值模型,并通过全尺寸物理实验进行了验证。然后模拟移动载荷场景。研究发现,结构承受移动载荷造成的“渐进破坏”的能力通常小于其承受静载荷的能力。
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