材料科学
共聚物
静电纺丝
化学工程
乙二醇
高分子化学
PEG比率
聚丁二酸丁二醇酯
动态力学分析
聚酯纤维
纳米纤维
热塑性弹性体
聚合物
复合材料
工程类
经济
财务
作者
Moein Zarei,Beata Michalkiewicz,Miroslawa El Fray
标识
DOI:10.26434/chemrxiv-2022-6m6sm-v2
摘要
In this study, the synthesis and physico-chemical properties of bio-based poly(butylene succinate-dilinoleic succinate)(PBS-DLS) modified with poly(ethylene glycol)(PEG) differing in segmental composition of respective units (PBS-DLS-PEG) are discussed in order to determine their structure-properties relationship and translate it to their electrospinability and 3-D printability. The PBS-DLS copolymers, containing bio-based succinic acid and dilinoleic diol, were successfully synthesized by two-step polycondensation, and collected directly from the reactor as crystallized filaments suitable for 3D printing. Chemical characterization indicated the formation of expected functional ester groups. Crystallized copolymers revealed spherulitic morphology and phase transitions typical for thermoplastic elastomers. Interestingly, incorporation of 5 wt% of PEG into copolymers containing higher hard segments content (70 wt%) disturbed the banded spherulitic morphology of copolymers, contributed to increase of elasticity up to 830%, and reduced the water contact angle indicating improvement of hydrophilicity. The mechanical properties and printability of the copolymers depended on their segmental composition, with higher hard segment content facilitating good printability. In solution processing, the copolymers turned into nanofibers via electrospinning with fiber diameters between 400 and 600 nm. The obtained results showed excellent melt and solution processability, rubber-like elasticity and tailored physical characteristics dependent from segmental composition of bio-based PBS-DLS copolymers modified with PEG.
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