纳米纤维素在木材胶粘剂中的应用综述

Open Journal of Polymer Chemistry Pub Date : 2019-10-17 DOI:10.4236/ojpchem.2019.94006

S. Vineeth, Ravindra V. Gadhave, P. Gadekar

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引用次数: 30

摘要

生物基材料由于其独立于石油化工的起源，在各个领域开辟了一个新的可能性世界。此外，对环境足迹和合成胶粘剂的毒性的关注使科学家们研究生物材料用于木材胶粘剂的利用。从这个角度来看，纳米纤维素作为一种可持续和廉价的生物纳米材料，提供了一种更好的替代传统的基于含甲醛缩合树脂的粘合剂。纳米纤维素在各种胶粘剂体系中既可作为粘合剂又可作为结构增强剂的特性增加了它的潜力。除减少甲醛的有害排放外，还能改善胶粘剂的力学性能，增强胶粘剂的性能。本文旨在指出纳米纤维素基木材胶粘剂与石油基传统胶粘剂相比，在可再生性之外的潜在应用。纳米纤维素通过结构改性获得的新功能可以替代合成胶粘剂体系，在未来的生物经济中发挥重要作用。

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Nanocellulose Applications in Wood Adhesives—Review

Bio-based materials open a new world of possibilities in every field due to its independence from the petrochemical origin. Moreover, concerns on environmental footprints and toxicity of synthetic adhesives made scientists investigate the utilization of biomaterials for wood adhesives. In this perspective, nanocellulose as a sustainable and cheap bio-nanomaterial provides a better alternative to conventional adhesive based on formaldehyde-containing condensation resins. Property of nanocellulose to act as both binders and as structural reinforcement in various adhesive systems adds to its potential. Besides by reducing the harmful emission of formaldehyde, it also can improve the mechanical properties and enhance performance of adhesives. This review paper aims to point out the potential application of nanocellulose based wood adhesives compared to petroleum-based conventional systems beyond renewability. New functionalities through structural modification in nanocellulose could bring a replacement with the synthetic adhesive systems which will play a significant role in future bio-economy.

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Open Journal of Polymer Chemistry

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