愈创木酚-脂肪酸-硫复合材料的热力学性能

Macromol Pub Date : 2023-09-25 DOI:10.3390/macromol3040038
Charini P. Maladeniya, Nawoda L. Kapuge Dona, Ashlyn D. Smith, Rhett C. Smith
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引用次数: 0

摘要

以木质素源愈创木酚、脂肪酸和硫为原料,制备了一系列6种复合材料。在这种制备中,有机共聚单体经过C-S键形成反应,建立了一个高度交联的网络材料,其中一些非共价结合的硫物种也被包裹。以单不饱和油酸和二不饱和亚油酸为脂肪酸组分,考察其不饱和水平对复合材料性能的影响。有机物的比例和硫的比例(70%或80% wt%)也有所不同,以评估对热、形态和机械性能的影响。热重分析表明,复合材料在~220℃下具有良好的热稳定性。差示扫描量热分析表明,材料普遍表现出环- s8的熔融特征,部分材料表现出冷结晶特征,且玻璃化转变温度与组分有关。复合材料的抗折和抗压强度表明,一些复合材料的强度明显高于住宅建筑中使用的波特兰水泥的强度要求,可能是更可持续的结构材料。可以通过改变脂肪酸单体的不饱和程度或改变单体饲料中脂肪酸的百分比来调整热性能和机械性能。单不饱和油酸单体用量越大,机械强度越高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermal and Mechanical Properties of Guaiacol–Fatty Acid–Sulfur Composites
A series of six composites was prepared from the reaction of lignin-derived guaiacol, fatty acids, and sulfur. In this preparation, the organic comonomers undergo C–S bond-forming reactions to establish a highly crosslinked network material in which some non-covalently incorporated sulfur species are also entrapped. Both monounsaturated oleic acid and diunsaturated linoleic acid were used as fatty acid components to assess the influence of their unsaturation levels on composite properties. The ratio of organics and the proportion of sulfur (70 or 80 wt%) was also varied to assess the effect on thermal, morphological, and mechanical properties. Thermogravimetric analysis showed that composites exhibited good thermal stability up to ~220 °C. Differential scanning calorimetry revealed that the materials generally exhibit melting features for entrapped cyclo-S8, cold crystallization features for some materials, and a composition-dependent glass transition temperature. The flexural and compressive strengths of the composites revealed that some of the composites exhibit strengths significantly higher than those required of Portland cements used in residential housing fabrication and may be more sustainable structural materials. The thermal and mechanical properties could be tailored by changing the degree of unsaturation of the fatty acid comonomer or by altering the percentage of fatty acid in the monomer feed. The highest mechanical strength was achieved with greater amounts of monounsaturated oleic acid comonomer.
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CiteScore
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