Engineered transparent wood with cellulose matrix for glass applications: A review

IF 6.2 Q1 CHEMISTRY, APPLIED
Nontobeko P. Simelane , Olatunde Stephen Olatunji , Maya Jacob John , Jerome Andrew
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引用次数: 0

Abstract

Engineered transparent wood (ETW), derived from the modification of natural wood, presents a sustainable and aesthetically pleasing alternative to traditional glass. This review comprehensively explores the burgeoning field of ETW as a novel material for applications in the glass industry. A comprehensive overview of the various methodologies employed in the engineering of transparent wood, encompassing delignification, polymer infiltration, and other innovative techniques is provided. Additionally, the optical, mechanical, and thermal properties of ETW are systematically examined, highlighting its potential advantages over conventional glass materials. The review also discusses recent advancements, challenges, and future considerations of ETW. Furthermore, the review discusses key applications in the glass industry where ETW has demonstrated promising performance, including windows, facades, and decorative elements. Essentially, this review aims to enhance understanding of ETW's potential in glass applications by critically analyzing current research and advancements. It seeks to pave the way for future developments in this innovative and eco-friendly technology.

Abstract Image

用于玻璃应用的纤维素基质工程透明木材:综述
工程透明木材(ETW)源自对天然木材的改性,是传统玻璃的一种可持续且美观的替代材料。本综述全面探讨了作为玻璃工业应用新型材料的 ETW 这一新兴领域。文章全面概述了透明木材工程中采用的各种方法,包括木质素化、聚合物渗透和其他创新技术。此外,还系统地研究了 ETW 的光学、机械和热性能,突出了其与传统玻璃材料相比的潜在优势。综述还讨论了 ETW 的最新进展、挑战和未来考虑因素。此外,综述还讨论了 ETW 在玻璃行业中的主要应用,包括窗户、外墙和装饰元素等,这些应用已显示出良好的性能。从根本上说,本综述旨在通过批判性地分析当前的研究和进展,加深人们对 ETW 在玻璃应用中的潜力的了解。它旨在为这一创新型环保技术的未来发展铺平道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
8.70
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0.00%
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