Abstract
Bamboo is now widely used in construction, papermaking, textile, furniture and other fields because of its renewable, fast-growing, high-strength, high-yield and easy processing. However, compared with wood, bamboo and bamboo products are more vulnerable to damage by fungi and pests. An effective and eco-friendly method is urgently needed to improve their physical and chemical properties, decay resistance and anti-mildew properties, and hydrophobic properties. Here, bamboo was heated with methyl silicone oil. The effect of different temperatures (140 °C–200 °C) and different times (2 h–6 h) on the properties of bamboo was studied systematically, including chemical composition, physical and mechanical properties, surface wettability, decay resistance and anti-mildew property. No starch granules were observed inside the parenchymal cell lumen of bamboo specimen heat treated at 200 °C for 6 h. And with the increase of heat treatment temperature and time, the content of cellulose and hemicellulose decreases gradually while relative content of lignin increases due to its better thermal stability. Accordingly, the surface wettability decreases due to the changes of the surface functional groups and micro-morphologies. Under the condition of oil heat treatment at 160 °C for 2 h, the compressive strength parallel to grain of bamboo samples reach the maximum of 109.52 MPa. With further increase of heating temperature, the corresponding compressive strength decreases. The resulted bending strength and MOE both display similar changing trend. However, the optimal parameter is at 180 °C for 2 h, with the highest bending strength and MOE values of 142.42 MPa and 12,373.00 MPa, respectively. Finally, the decay resistance and anti-mildew property are dramatically enhanced with increased heat treatment temperature and time. All the corresponding changing mechanisms are investigated in depth and in detail. Our results provide comprehensive process parameters and micro-mechanism for the performance of oil heat treatment of bamboo, which can be used to guide the actual production.
Highlights
With the rapid economic growth of our country and the improvement of people’s living standards, the demand for wood in the home decoration, furniture and construction industries is increasing
Bamboo and bamboo products are more vulnerable to be damaged by fungi and pests
Mildew and decay of bamboo restrict the applications of bamboo products in special environment
Summary
With the rapid economic growth of our country and the improvement of people’s living standards, the demand for wood in the home decoration, furniture and construction industries is increasing. In the case of prominent contradiction between supply and demand of wood, bamboo is. Bamboo and bamboo products are more vulnerable to be damaged by fungi and pests. Mildew and decay of bamboo restrict the applications of bamboo products in special environment. The inherent disadvantages of bamboo such as hydrophilicity and dimensional instability seriously shorten its service life [9, 10]. It is the key to find an effective and eco-friendly way to improve the physical and chemical properties, decay resistance and anti-mildew properties, and hydrophobic properties of bamboo
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