Sustainable, transparent, strong toughness, UV resistance, and anti-corrosion properties of cashew shell oil-based waterborne polyurethane network derived from phloretin and sorbitan monooleate-based siloxane

IF 13.3 1区工程技术 Q1 ENGINEERING, CHEMICAL

Chemical Engineering Journal Pub Date : 2024-04-20 DOI:10.1016/j.cej.2024.151506

Jiawei Li , Chengyu Hong , Hao Zhang , Jiaqi Zhang , Ruixue Zhai , Bin Fei , Chao Zhou

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引用次数: 0

Abstract

The increasingly severe energy shortage and growing environmental problems have accelerated the rapid development of sustainable polymer materials. Hereon, a novel method was proposed for the synthesis of cashew nut shell oil-based waterborne polyurethane (WPUs), which exhibited excellent toughness, transparency, water resistance, UV resistance and corrosion resistance. Specifically, the sorbitan monooleate-based siloxane (MSP) was prepared via a thiol-ene click chemistry reaction. Subsequently, the plant-based phloretin (PRT) and MSP were introduced as polyols into the skeleton of WPUs through the molecular structure design strategy. Series of high bio-based content (91 %) WPUs networks were obtained via pre-polymerization and self-emulsification methods. The properties of their dispersions and films were thoroughly investigated, and it was found that the addition of MSP and PRT enhanced the overall performance of WPUs film. For instance, there was a significant increase in T_g. Additionally, they exhibited a maximum tensile strength of 31.5 MPa and a maximum toughness of 53 MJ/m³, which were the most outstanding among all reported plant oil-based WPU systems so far, indicating excellent tear resistance. Interestingly, the water absorption rate of PSWPU-40 was reduced to 7.1 %, suggesting good water resistance, which resolved the contradiction between the mechanical properties and water resistance of the current plant oil-based WPU systems. The PSPWU films exhibited promising application prospects, exemplified by its ability to effectively shield the entire UV range. Furthermore, its coating demonstrated outstanding anti-corrosion properties with a maximum anticorrosion efficiency of 97.1 %. It could be attributed to the synergistic effect of a self-crosslinking structure, higher crosslinking density, a tighter network structure, and stronger intermolecular forces (H-bond). This work provided a meaningful guide for the application and development of high-performance bio-based WPU functional coatings.

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腰果壳油基水性聚氨酯网络具有可持续、透明、韧性强、抗紫外线和防腐蚀等特性，这些聚氨酯来源于小叶紫檀素和山梨醇单油酸酯基硅氧烷

日益严重的能源短缺和环境问题加速了可持续聚合物材料的快速发展。本文提出了一种合成腰果壳油基水性聚氨酯（WPU）的新方法，该方法具有优异的韧性、透明度、耐水性、抗紫外线和耐腐蚀性。具体来说，通过硫醇-烯点击化学反应制备了山梨醇单油酸酯基硅氧烷（MSP）。随后，通过分子结构设计策略，将植物基植物生长素（PRT）和 MSP 作为多元醇引入到 WPU 的骨架中。通过预聚合和自乳化方法，获得了一系列高生物基含量（91%）的 WPUs 网络。对其分散体和薄膜的性能进行了深入研究，发现添加 MSP 和 PRT 可提高 WPUs 薄膜的综合性能。例如，Tg 显著增加。此外，它们还表现出 31.5 兆帕的最大拉伸强度和 53 兆焦耳/立方米的最大韧性，这在迄今为止报道的所有植物油基 WPU 系统中最为突出，表明它们具有优异的抗撕裂性。有趣的是，PSWPU-40 的吸水率降低到了 7.1%，表明其具有良好的耐水性，解决了目前植物油基 WPU 系统机械性能和耐水性之间的矛盾。PSPWU 薄膜的应用前景十分广阔，它能有效屏蔽整个紫外线范围。此外，其涂层还具有出色的防腐性能，最大防腐效率高达 97.1%。这归功于自交联结构、更高的交联密度、更紧密的网络结构和更强的分子间作用力（H 键）的协同效应。这项研究为高性能生物基 WPU 功能涂料的应用和开发提供了有意义的指导。

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来源期刊

Chemical Engineering Journal 工程技术-工程：化工

CiteScore

21.70

自引率

9.30%

发文量

6781

审稿时长

2.4 months

期刊介绍： The Chemical Engineering Journal is an international research journal that invites contributions of original and novel fundamental research. It aims to provide an international platform for presenting original fundamental research, interpretative reviews, and discussions on new developments in chemical engineering. The journal welcomes papers that describe novel theory and its practical application, as well as those that demonstrate the transfer of techniques from other disciplines. It also welcomes reports on carefully conducted experimental work that is soundly interpreted. The main focus of the journal is on original and rigorous research results that have broad significance. The Catalysis section within the Chemical Engineering Journal focuses specifically on Experimental and Theoretical studies in the fields of heterogeneous catalysis, molecular catalysis, and biocatalysis. These studies have industrial impact on various sectors such as chemicals, energy, materials, foods, healthcare, and environmental protection.