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Evaluating the comprehensive influences of heat treatment and polydimethylsiloxane on integrated performance of bamboo timber.
Zhang, Ying; Zhang, Xin; Yu, Youming; Che, Wenbo; Zhang, Xiaochun; Hou, Junfeng.
Affiliation
  • Zhang Y; School of Engineering, Zhejiang A & F University Hangzhou Zhejiang 311300 P. R. China 20110039@zafu.edu.cn houjunfeng@zafu.edu.cn.
  • Zhang X; School of Engineering, Zhejiang A & F University Hangzhou Zhejiang 311300 P. R. China 20110039@zafu.edu.cn houjunfeng@zafu.edu.cn.
  • Yu Y; School of Engineering, Zhejiang A & F University Hangzhou Zhejiang 311300 P. R. China 20110039@zafu.edu.cn houjunfeng@zafu.edu.cn.
  • Che W; School of Engineering, Zhejiang A & F University Hangzhou Zhejiang 311300 P. R. China 20110039@zafu.edu.cn houjunfeng@zafu.edu.cn.
  • Zhang X; School of Engineering, Zhejiang A & F University Hangzhou Zhejiang 311300 P. R. China 20110039@zafu.edu.cn houjunfeng@zafu.edu.cn.
  • Hou J; Zhejiang Provincial Collaborative Innovation Center for Bamboo Resources and High-efficiency Utilization Hangzhou 311300 P. R.China.
RSC Adv ; 10(71): 43438-43446, 2020 Nov 27.
Article in En | MEDLINE | ID: mdl-35519663
The main objective of this work is to analyse the influence of heat treatment with polydimethylsiloxane on integrated performance of bamboo timber. Bamboo timber was heat treated using polydimethylsiloxane as a medium at 120, 150, 180 and 210 °C for 3 h in this study. Results revealed that the equilibrium moisture content (EMC) and linear swelling ratio of heat-treated bamboo specimens was remarkable decreased with increasing heat treatment temperature. The surface contact angle of water on the bamboo specimens was observed to increase with the increasing heat treatment temperature, indicating the reduction of wettability with water. Additionally, the modulus of rupture (MOR) and modulus of elasticity (MOE) was decreased with the increasing heat treatment temperature and lower than that of untreated specimens. Cellulose crystallinity of bamboo specimens was slightly decreased with the increase of heat treatment temperature. TG-DTG results illustrated a reduction in relative content of hemicellulose, and increase in relative content of lignin and cellulose of bamboo specimens with the increase of heat treatment temperature. Presence of the stretching vibration Si-C in Si-CH3 indicated the bonding of siloxane to bamboo timber by forming covalent bonds. The colour of the heat-treated bamboo timber was even deepened after heat treatment, endowing the bamboo timber with better surface decoration performance.