Abstract
With the increasing shortage of timber resources and the advancement of environmental protection projects, many artificial fast-growing forests are planted and used as raw materials in China. There are significant differences in the properties of natural forest wood and artificial fast-growing forest wood, and the properties of wood mainly depend on the change in the status of bound water in the cell wall. In this study, the fiber saturation point (FSP) and pore size distributions within the cell wall of six species of fast-growing forest wood were studied by low-temperature nuclear magnetic resonance (NMR) technology. The effects of species, growth rings, and extractives on the FSP and pore structure were analyzed. The water vapor sorption experiments were performed, and the adsorption isotherms of the samples were fitted through the Guggenheim-Anderson-de Boer (GAB) equation. According to the least-square regression of the adsorption isotherms and combined with the low-temperature NMR experiments, the content and proportion of the different types of bound water were analyzed. The results showed that the average FSP of each Chinese fir was about 40% and that of each poplar was about 35%. There is about a 10% difference between the FSP measured by NMR technology and the adsorption bound water content obtained by adsorption isothermal. The pore size distribution results show that in all samples, the proportion of pores larger than 10.5 nm is very low, about 10%; the proportion of 1.92-10.5 nm pores is about 30%; and the proportion of pores smaller than 1.92nm is more than 50%. This work will be helpful to the study of the wood moisture status and provide reference data for wood modification.
Highlights
Wood is a versatile renewable engineering material that has been widely used in construction and decoration
After the nuclear magnetic resonance (NMR) experiment, the water vapor sorption experiments were performed in the two-chamber setup, and the adsorption isotherms of the samples were fitted through the Guggenheim-Anderson-de Boer (GAB) equation
Combined with the actual value of the fiber saturation point (FSP) determined by the NMR method, the content of different types bound water was analyzed
Summary
Wood is a versatile renewable engineering material that has been widely used in construction and decoration. This can be attributed to its superior material properties, such as a favorable mass strength ratio, easy processing, and environmental characteristics [1, 2]. With the increasing shortage of timber resources and the advancement of environmental protection projects, many artificial fast-growing forests are used as raw materials in the wood industry. Chinese fir and poplar are the two most planted artificial fast-growing forest species, and their plantation area ranks among the top in China [4]. With the advantages of a fast growth rate, Chinese fir and poplar have been widely used in furniture, construction, wood-based panel, and other products. Due to the fast growth rate, the dimensional stability, density, strength, durability, and other properties of fastgrowing forest wood are not as good as natural forest wood [5]
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