Wooden sandwich panels with auxetic core for furniture - experimental and numerical analysis

Journal of Sandwich Structures and Materials Pub Date : 2023-09-08 DOI:10.1177/10996362231201880

Yanan Zhong, Yi Ren, Jijuan Zhang, Zhongfeng Zhang

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Abstract

Honeycomb panels manufactured from wood and paper materials promote a high-value utilization of wood resources. However, the poor mechanical properties and uncommon thicknesses (32 and 40 mm) of paper honeycomb panels limit their application and promotion in the panel furniture industry. Hence, numerous attempts have been made to develop high-strength and low-density wood sandwich composites for the frames and partitions of cabinet furniture. This paper describes a method for manufacturing lightweight sandwich panels (18 mm thickness) with auxetic cores, made of fast-growing poplar. The mechanical properties of the panels and the negative Poisson's ratio of the perforated sheet cores were determined by three-point bending and uniaxial compression tests. The lower density, higher modulus of elasticity, and bending strength suggest that the developed panel is a good substitute for traditional wood-based panels. A numerical model for panels in bending tests is proposed and validated against the experimental analysis results. These investigations facilitate further research into optimizing the sandwich panel structure and its applicability in the architectural and furniture industry.

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家具用带辅助芯的夹芯木板。试验和数值分析

由木材和纸张材料制成的蜂窝板促进了木材资源的高价值利用。然而，纸蜂窝板力学性能差，厚度不常见(32mm和40mm)，限制了其在板式家具行业的应用和推广。因此，人们多次尝试开发用于橱柜家具框架和隔板的高强度和低密度木夹层复合材料。本文介绍了一种以速生杨木为材料，制造厚度为18mm的轻质补心夹层板的方法。通过三点弯曲和单轴压缩试验，测定了板芯的力学性能和负泊松比。密度低、弹性模量高、抗弯强度大，是传统人造板的良好替代品。提出了板料弯曲试验的数值模型，并与试验分析结果进行了对比验证。这些调查有助于进一步研究优化夹层板结构及其在建筑和家具行业中的适用性。

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Journal of Sandwich Structures and Materials

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