Experimental and Numerical Study of the Physico-Hygrothermal Behavior of Two Tropical Wood Species

Carlos A. Houngbeme, A. Houngan, Armand A. Djossou
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Abstract

In the first stage. an integral saturation test of lignocellulosic materials was carried out on samples of wood under the control of a previously established theoretical basis. At the end of this test. parameters such as the porosity at saturation with water. the basal density. the total volume shrinkage. the linear shrinkages. the density at the saturation of the samples are deduced. The second stage of this work is based on the exploitation of the hot tape method to achieve the thermophysical properties of wood samples over a range of humidity levels from 0% to 60%. The last stage of this research consisted in developing in the laboratory a device for controlling the saturation rate of steam in order to determine the adsorption/desorption isotherms. the mass diffusivity and the water capacity of these same wood species at various temperature. The counting of the results resulting from these tests has pointed out. among other things. that gmelia arborea is a more hygroscopic. lighter and more thermally insulating wood than afzelia wood. It is also noted that the two species of wood have average shrinkage. anisotropy and nervousness suggesting good stability in service. It is also noticed that equilibrium moisture sorption by these species increases with increasing relative humidity at constant temperature. but decreases slightly as temperature increases at constant humidity. In short . this work reinforces the database on tropical woods by providing in particular more local measurements. allowing the reliable dimensioning of wooden structures.
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两种热带木材的物理热学行为的实验和数值研究
在第一阶段,根据之前建立的理论基础,对木质纤维素材料样本进行了整体饱和度测试。测试结束后,将推导出各种参数,如水饱和时的孔隙率、基本密度、总体积收缩率、线性收缩率、样品饱和时的密度。这项工作的第二阶段是利用热胶带方法,在 0% 至 60% 的湿度范围内测定木材样本的热物理性质。研究的最后一个阶段是在实验室中开发一种控制蒸汽饱和率的装置,以确定这些木材在不同温度下的吸附/解吸等温线、质量扩散率和水容量。对这些测试结果的统计表明,除其他外,菠萝格比阿夫榉木更吸湿、更轻、更隔热。还注意到,这两种木材的收缩率、各向异性和紧张性都很平均,这表明它们在使用中具有良好的稳定性。还注意到,在恒温条件下,这些树种的平衡吸湿性随相对湿度的增加而增加,但在恒湿条件下,随着温度的增加,平衡吸湿性略有下降。总之,这项工作通过提供更多的本地测量数据,加强了热带木材数据库,从而能够可靠地确定木结构的尺寸。
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