期刊
JOURNAL OF REINFORCED PLASTICS AND COMPOSITES
卷 -, 期 -, 页码 -出版社
SAGE PUBLICATIONS LTD
DOI: 10.1177/07316844231161142
关键词
aramid fiber; thermotropic liquid crystalline polyester; composites; thermal property; mechanical property
We analyzed the impact of short aramid fibers (AFs) on the melt-rheological behavior, thermal transition, thermal stability, and mechanical durability of thermotropic liquid crystal polyesters (TLCPs) through a study. The addition of AF fillers to the TLCP matrix composites improved the complex viscosity, shear storage/loss moduli, and thermal transition temperatures. However, the enthalpies increased only at low AF loading contents and decreased at high AF contents due to partial aggregation of AF fillers. The addition of 5 wt% AF to the TLCP significantly improved its elastic moduli and long-term mechanical durability at elevated temperatures.
We conducted a study to analyze the impact of short aramid fibers (AFs) on the melt-rheological behavior, thermal transition, thermal stability, and mechanical durability of thermotropic liquid crystal polyesters (TLCPs). By using different AF loading contents ranging from 3-15 wt%, we produced TLCP matrix composites through masterbatch-based melt compounding and injection-molding. The SEM images and FT-IR spectra demonstrate that the AFs are dispersed in the TLCP matrix with a microfibrillar structure through good interfacial adhesion caused by specific intermolecular interactions between the TLCP and AFs. As a result, the complex viscosity, shear storage/loss moduli, and thermal transition (melt-crystallization, glass transition, and melting) temperatures of the composites increase with increasing AF filler content. However, the melt-crystallization and melting enthalpies increase only at low AF loading contents of 3-5 wt%. At high AF contents of 7-15wt%, the enthalpies decrease owing to the partial aggregation of AF fillers. The thermogravimetric analysis proves that the thermal stability of TLCP/AF composites improves when the AF filler is introduced. The dynamic mechanical analysis using the stepped isothermal method shows that the addition of 5 wt% AF to the TLCP leads to an approximately 150% improvement in elastic moduli and long-term mechanical durability at elevated temperatures.
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