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SiO2 decorated wood nanocomposite with enhanced mechanical performance, flame and water resistance

You-Yong Wang, Xiangqian Wang, Bei-Zhou Zhang, Shuai Zhai, Hao Li, Yuan-Qing Li, Weibin Zhu, Shao‐Yun Fu

2024Nano Materials Science9 citationsDOIOpen Access PDF

Abstract

Development of lightweight and strong structural material using fast-growing poplar wood is promising for green and sustainable engineering. Herein, the overall performances of fast-growing natural poplar wood (NPW) are significantly enhanced via delignification, in situ growth of SiO 2 followed by densification. The SiO 2 /compressed-delignified-wood (SiO 2 /CDW) nanocomposite obtained exhibits outstanding mechanical properties including a bending strength of 395.6 ​MPa, a tensile strength of 253.4 ​MPa, and a toughness of 7.1 ​MJ/m 3 , which is improved by 1548 ​%, 240 ​% and 590 ​%, respectively compared with NPW. In addition, the ignition time and burning time of SiO 2 /CDW nanocomposite are prolonged by 700 ​% and 112 ​% compared to those of NPW. Moreover, the specific wear rate of SiO 2 /CDW is 18 ​× ​10 −6 mm 3 /Nm, which is 72.6 ​% lower than that of NPW. Moreover, the spring-back ratios of SiO 2 /CDW in 95 ​% and in water are 45.2 ​% and 66.7 ​%, which are lower than those of CDW (64.6 ​% and 92.4 ​%). The SiO 2 /CDW nanocomposite with enhanced mechanical, flame/water retardant and wear performances are promising to meet the needs of modern engineering as green and sustainable materials.

Topics & Concepts

NanocompositeWater resistanceMaterials scienceComposite materialPolymer composites and self-healingPolymer Nanocomposites and PropertiesAdvanced Cellulose Research Studies
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