基于整体三维打印夹芯板的六边形蜂窝和圆形蜂窝的比较分析

IF 1.5 4区工程技术 Q3 ENGINEERING, MECHANICAL

Journal of Mechanical Science and Technology Pub Date : 2024-09-04 DOI:10.1007/s12206-024-0829-y

Alberto Jorge Baeza Campuzano, Rodrigo José da Silva, Márcio Eduardo Silveira, Túlio Hallak Panzera, Fabrizio Scarpa

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引用次数: 0

摘要

蜂窝通常用作夹芯板的芯材，芯材的几何形状对这些结构的弯曲性能有很大影响。了解芯材特性如何影响夹芯板的机械性能至关重要。不同蜂窝夹芯板结构之间的比较相当复杂。本研究深入探讨了各种蜂窝夹芯板配置之间的复杂比较，并以此为基准，对具有 L 向和 W 向六边形芯材以及圆形芯材的整体 3D 打印板材进行了比较。值得注意的是，在六边形芯材的 L 方向上观察到了起皱现象。圆形电池板的承载能力、弯曲模量和韧性都有所提高。此外，六边形 L 型芯板的韧性模量高于 W 型芯板，使其刚度更低但强度更高。此外，L 型芯板的密度低于圆形芯板，而 W 型芯板的密度较高，从而影响了其特定的机械性能。

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A comparative analysis between hexagonal and circular cells honeycombs based on integral 3D-printed sandwich panels

Honeycombs are commonly used as core materials in sandwich panels, and the core geometry significantly impacts the bending behaviour of these structures. Understanding how core characteristics influence the mechanical properties of sandwich panels is essential. The comparison between different honeycomb sandwich panel configurations is quite complex. This study delves into the intricate comparison between various honeycomb sandwich panel configurations, serving as a benchmark for integral 3D printed panels featuring hexagonal cores in both L- and W-directions, and circular cores. Notably, wrinkling phenomena are observed in the L-direction of the hexagonal cores. Circular cell panels exhibit increased load capacity, flexural modulus, and toughness. Additionally, hexagonal L-core panels demonstrate a higher toughness modulus than their W-core counterparts, making them less rigid yet stronger. Furthermore, L-cell core panels possess a lower density than circular cores, whereas W-cell cores exhibit higher density, compromising their specific mechanical properties.

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来源期刊

Journal of Mechanical Science and Technology 工程技术-工程：机械

CiteScore

2.90

自引率

6.20%

发文量

517

审稿时长

7.7 months

期刊介绍： The aim of the Journal of Mechanical Science and Technology is to provide an international forum for the publication and dissemination of original work that contributes to the understanding of the main and related disciplines of mechanical engineering, either empirical or theoretical. The Journal covers the whole spectrum of mechanical engineering, which includes, but is not limited to, Materials and Design Engineering, Production Engineering and Fusion Technology, Dynamics, Vibration and Control, Thermal Engineering and Fluids Engineering. Manuscripts may fall into several categories including full articles, solicited reviews or commentary, and unsolicited reviews or commentary related to the core of mechanical engineering.