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Original Articles

Surface colour and chemical changes of furfurylated poplar wood and bamboo due to artificial weathering

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Pages 168-175 | Received 08 Jul 2020, Accepted 25 Sep 2020, Published online: 06 Oct 2020
 

ABSTRACT

Although furfurylation greatly improves dimensional stability, hardness, and biodegradation resistance of wood and bamboo, the effects of furfurylation on the resistance of wood and bamboo to weathering are still not clear. In this study, poplar wood and moso bamboo were furfurylated and underwent artificial weathering. The surface chemical changes of the control and furfurylated wood and bamboo samples were examined using the attenuated total reflection Fourier-transform infrared spectroscopy (ATR-FTIR) and X-ray photoelectron spectroscopy (XPS). The colour changes were also investigated by measuring CIELab parameters. Results demonstrated that the wood/bamboo surfaces showed decreased lightness and became reddish and yellowish after artificial weathering. Furfurylation endowed poplar wood and bamboo with improved stability of photo-discolouration. Weathering caused remarkable degradation of lignin in the control and furfurylated sample surfaces with decreased aromatic carbons and increased oxygenated carbons. The poly(furfuryl alcohol) in sample surfaces could also be oxidized during weathering. Compared with the furfurylated bamboo, the furfurylated poplar wood had higher stability of photo-degradation.

Acknowledgements

The authors are very grateful for the support from the Advanced analysis and testing center of Nanjing Forestry University.

Disclosure statement

No potential conflict of interest was reported by the author(s).

Additional information

Funding

This work was supported by the Key Laboratory of Biobased Material Science & Technology (Northeast Forestry University), Ministry of Education [grant number SWZ-MS201908]; Natural Science Foundation of Jiangsu Province [grant number BK20190754]; Innovation Fund for Young Scholars of Nanjing Forestry University [grant number CX2019003], and Students Practice Innovation and Training Program of Nanjing Forestry University [grant number 2020NFUSPITP0028].
This article is part of the following collections:
Recent advances in wood modification

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