Toward understanding the cross-linking from molecular chains to aggregates by engineering terminals of supramolecular hyperbranched polysiloxane  

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作  者:Yuanbo Zhang Junshan Yuan Jingzhi Hu Zhixuan Tian Weixu Feng Hongxia Yan 

机构地区:[1]Shaanxi Key Laboratory of Macromolecular Science and Technology,Xi’an Key Laboratory of Hybrid Lumines-cent Materials and Photonic Device,School of Chemistry and Chemical engineering,Northwestern Polytechnical University,Xi’an,China

出  处:《Aggregate》2024年第1期228-235,共8页聚集体(英文)

基  金:National Natural Science Foundation of China,Grant/Award Number:22175143;Key Research and Development Project of Shaanxi,Grant/Award Number:2022GY-353;Science Center for Gas Turbine Project,Grant/Award Number:P2022-DB-V-001-001;Fundamental Research Funds for the Central Universities,Grant/Award Number:D5000230086。

摘  要:Crosslinking thermosets with hyperbranched polymers confers them superior comprehensive performance.However,it still remains a further understanding of polymer crosslinking from the molecular chains to the role of aggregates.In this study,three hyperbranched polysiloxane structures(HBPSi-R)are synthesized as model macromolecules,each featuring distinct terminal groups(R denotes amino,epoxy,and vinyl groups)while similar molecular backbone(Si-O-C).These structures were subsequently copolymerized with epoxy monomers to construct interpenetrating HBPSi-R/epoxy/anhydride co-polymer systems.The spatial molecular configuration and flexible Si-O-C branches of HBPSi-R endow them with remarkable reinforcement and toughening effects.Notably,an optimum impact strength of 28.9 kJ mol^(−1) is achieved with a mere 3%loading of HBPSi-V,nearly three times that of the native epoxy(12.9 kJ mol^(−1)).By contrasting the terminal effects,the aggregation states and crosslinking modes were proposed,thus clarifying the supramolecular-dominant aggregation mechanism and covalent-dominant dispersion mechanism,which influences the resulting material properties.This work underscores the significance of aggregate science in comprehending polymer crosslinking and provides theoretical insights for tailoring material properties at a refined molecular level in the field of polymer science.

关 键 词:AGGREGATES CROSSLINKING hyperbranched polymers 

分 类 号:O63[理学—高分子化学]

 

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