Experimental and numerical studies on mechanical behaviors of beech wood under compressive and tensile states

IF 0.9 4区农林科学 Q3 MATERIALS SCIENCE, PAPER & WOOD

Wood Research Pub Date : 2021-03-08 DOI:10.37763/WR.1336-4561/66.1.2738

Wengang Hu, Bingrui Chen, Tianxing Zhang

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引用次数: 11

Abstract

Effect of loading type (compression and tension) on mechanical properties, including elastic constants, yield strength and ultimate strength of beech (Fagus orientalis) wood were studied based on experimental and numerical methods. The mechanical behaviors of beech wood in compressive and tensile states were simulated by finite element method (FEM) using mechanical parameters measured in an experiment. The results showed that the effect of loading types on mechanical properties of beech was statistically significant. The elastic moduli measured in tension were all bigger than those in compression, but the Poisson’s ratios determined in compression were bigger than those in tension. In compressive state, the yield and ultimate strengths of beech in longitudinal grain orientation were all smaller than those measured in tensile state, while the yield and ultimate strengths of beech in radial and tangential directions were higher than those of longitudinal direction. The results of the FEM in compression and tension were all well consistent with those measured by experiments respectively, and the average errors were all within 13.69%. As a result, the finite element models proposed in this study can predict the mechanical behaviors of wood in tensile and compressive states.

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山毛榉木材在压缩和拉伸状态下力学行为的实验和数值研究

采用试验和数值方法研究了不同加载方式(压缩和拉伸)对山毛榉木材弹性常数、屈服强度和极限强度等力学性能的影响。利用试验测得的力学参数，采用有限元法模拟了山毛榉木材在压缩和拉伸状态下的力学行为。结果表明，不同加载方式对山毛榉的力学性能影响有统计学意义。拉伸时测得的弹性模量均大于压缩时测得的弹性模量，但压缩时测得的泊松比大于拉伸时测得的泊松比。压缩状态下，山毛榉纵向晶粒取向的屈服强度和极限强度均小于拉伸状态下的屈服强度和极限强度，而径向和切向的屈服强度和极限强度均高于纵向。有限元计算结果与试验结果吻合较好，平均误差均在13.69%以内。因此，本研究提出的有限元模型可以预测木材在拉伸和压缩状态下的力学行为。

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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来源期刊

Wood Research 工程技术-材料科学：纸与木材

CiteScore

2.40

自引率

15.40%

发文量

审稿时长

5.4 months

期刊介绍： Wood Research publishes original papers aimed at recent advances in all branches of wood science (biology, chemistry, wood physics and mechanics, mechanical and chemical processing etc.). Submission of the manuscript implies that it has not been published before and it is not under consideration for publication elsewhere.