环氧树脂
玻璃化转变
材料科学
热固性聚合物
固化(化学)
差示扫描量热法
复合材料
动态力学分析
支化(高分子化学)
聚合物
热机械分析
热膨胀
热力学
物理
作者
M Kelly,Arpenik Kroyan,Ingrid Hallsteinsen,Sondre K. Schnell,Hilde Lea Lein
出处
期刊:ACS omega
[American Chemical Society]
日期:2024-12-11
卷期号:9 (51): 50414-50426
被引量:9
标识
DOI:10.1021/acsomega.4c07413
摘要
In thermosetting epoxies, thermomechanical properties can be enhanced by conscious selection of curing agents. Full cross-linking leads to a maximum in the glass- transition temperature. However, the relation between the glass transition temperature and the epoxy matrix depends on several factors beyond the cross-linking degree, such as the molecular weight of the polymers, network organization, amount of branching, and the presence of hydrogen bonds. In this study, we investigated adding non- stoichiometric ratios of the epoxy resin Epikote 828 and the curing agent Jeffamine D230. The investigations were done through a combination of molecular dynamics simulations and experiments, primarily differential scanning calorimetry and nanoindentation. Reorganization of the network to fewer clusters with a higher degree of linearity overcomes the effect of cross-linking and leads to a reduction of glass-transition temperature with increasing concentrations of curing agent to epoxy. The elastic, shear, and compressive moduli remained constant. Hence, moderating the curing agent con- tent has the potential to improve thermal properties while maintaining mechanical properties for this epoxy system.
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