Understanding the role of cross-link density in the segmental dynamics and elastic properties of cross-linked thermosets

玻璃化转变 热固性聚合物 交叉连接 材料科学 脆弱性 聚合物 刚度 放松(心理学) 弹性模量 缩放比例 抗弯刚度 渗透(认知心理学) 复合材料 热力学 物理 数学 神经科学 几何学 生物 社会心理学 心理学
作者
Xiangrui Zheng,Ya-Fang Guo,Jack F. Douglas,Wenjie Xia
出处
期刊:Journal of Chemical Physics [American Institute of Physics]
卷期号:157 (6): 064901-064901 被引量:46
标识
DOI:10.1063/5.0099322
摘要

Cross-linking is known to play a pivotal role in the relaxation dynamics and mechanical properties of thermoset polymers, which are commonly used in structural applications because of their light weight and inherently strong nature. Here, we employ a coarse-grained (CG) polymer model to systematically explore the effect of cross-link density on basic thermodynamic properties as well as corresponding changes in the segmental dynamics and elastic properties of these network materials upon approaching their glass transition temperatures (Tg). Increasing the cross-link density unsurprisingly leads to a significant slowing down of the segmental dynamics, and the fragility K of glass formation shifts in lockstep with Tg, as often found in linear polymer melts when the polymer mass is varied. As a consequence, the segmental relaxation time τα becomes almost a universal function of reduced temperature, (T − Tg)/Tg, a phenomenon that underlies the applicability of the “universal” Williams–Landel–Ferry (WLF) relation to many polymer materials. We also test a mathematical model of the temperature dependence of the linear elastic moduli based on a simple rigidity percolation theory and quantify the fluctuations in the local stiffness of the network material. The moduli and distribution of the local stiffness likewise exhibit a universal scaling behavior for materials having different cross-link densities but fixed (T − Tg)/Tg. Evidently, Tg dominates both τα and the mechanical properties of our model cross-linked polymer materials. Our work provides physical insights into how the cross-link density affects glass formation, aiding in the design of cross-linked thermosets and other structurally complex glass-forming materials.
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