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Biobased Tannic Acid Cross-Linked Epoxy Thermosets with Hierarchical Molecular Structure and Tunable Properties: Damping, Shape Memory, and Recyclability



编号 020027501

推送时间 20210125

研究领域 林产化工 

年份 2021 

类型 期刊 

语种 英语

标题 Biobased Tannic Acid Cross-Linked Epoxy Thermosets with Hierarchical Molecular Structure and Tunable Properties: Damping, Shape Memory, and Recyclability

来源期刊 ACS SUSTAINABLE CHEMISTRY & ENGINEERING

第275期

发表时间 20200120

关键词 tannic acid;  tunable thermosets;  damping;  shape memory effect;  recyclability; 

摘要 Biomass derivative and recyclability are two major factors in developing sustainable epoxy thermosets that cope with the global oil crisis and climate change. However, the major bottleneck persists in comparatively low strength of biobased epoxy thermosets and a complex synthesis route of recyclable epoxy thermosets. Here, we broke through the bottleneck by simply applying the biomass-based tannic acid as a multifunctional curing agent to a rigid epoxy monomer. Due to the diverse bonding abilities and particular topological structure of the tannic acid, the as-prepared epoxy thermosets exhibited a hierarchical molecular structure with high mechanical strength and tunable functionalities such as damping, shape memory, and recyclability. Specifically, two types of tannic acid cross-linked epoxy thermosets with raw hydroxyl/epoxide ratios of 0.5 and 1.0, respectively, were prepared to investigate the influence of feedstock ratios. When less tannic acid was used, a more complex topological thermoset network and better damping capability were achieved, and the effective damping temperature range was extended to 38.4 degrees C. On the other hand, the equal-stoichiometric epoxy thermoset possessed a higher tensile strength (similar to 98.4 MPa), better shape memory ability, and good recyclability. This dual sustainability concept (biomass feedstock and recyclability) may provide a promising opportunity for developing high-performance multifunctional thermoset polymers.

服务人员 尚玮姣

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