Tuning material and component properties to reduce weight and increase blastworthiness of a notional V-hull structure

Case Studies in Mechanical Systems and Signal Processing Pub Date : 2015-12-01 DOI:10.1016/j.csmssp.2015.10.001

Weiran Jiang , Nickolas Vlahopoulos , Matthew P. Castanier , Ravi Thyagarajan , Syed Mohammad

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引用次数: 11

Abstract

In this paper, concepts are investigated for tuning material properties and component configurations in order to design structures with unique dynamic characteristics for mitigating blast loads while maintaining or reducing weight. The dynamic response index (DRI) is employed as an occupant injury metric for determining the effectiveness of each blast mitigation configuration that is considered. A finite element model of a notional V-hull structure is used as a numerical example in this study. The material properties and the configuration of the inner bulkheads that connect the V-shaped outer surface with the inner floor are used as design parameters for reducing the DRI at a typical occupant location. In this particular example, it is demonstrated that both the weight of the structure and the DRI can be reduced simultaneously. This is achieved by creating a new structural design that features energy absorbing and decoupling mechanisms among the bulkheads, floor, seat, and the occupant.

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调整材料和部件性能，以减轻重量，提高概念v型船体结构的防爆性能

在本文中，研究了调整材料性能和组件配置的概念，以便设计具有独特动态特性的结构，以减轻爆炸载荷，同时保持或减轻重量。采用动态响应指数(DRI)作为乘员伤害度量，以确定所考虑的每种爆炸缓解配置的有效性。本文以一个概念v型船体结构的有限元模型为算例进行了研究。连接v形外表面和内地板的内舱壁的材料特性和配置被用作减少典型居住者位置的DRI的设计参数。在这个特殊的例子中，证明了结构的重量和DRI可以同时减少。这是通过创造一种新的结构设计来实现的，这种结构设计在舱壁、地板、座椅和乘员之间具有能量吸收和分离机制。

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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Case Studies in Mechanical Systems and Signal Processing

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