Journal
FIBERS
Volume 5, Issue 3, Pages -Publisher
MDPI AG
DOI: 10.3390/fib5030032
Keywords
fiber-reinforced polymer composites; carbon nanofiber; high performance carbon fiber; new processing methods for composites; multi-scale-reinforced polymer composites; surface crystallization
Categories
Funding
- Center for Advanced Materials via Immiscible Polymer Processing (AMIPP) at Rutgers University
- Aresty Research Center at Rutgers University
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Fiber-reinforced polymer matrix composites offer lightweight, high mechanical performance but have required much effort to achieve good fiber-matrix adhesion and uniform distribution, and generally suffer from low impact resistance. In this work, a uniform, high shear melt-processing method was used to prepare carbon fiber (CF) reinforced polyetheretherketone (PEEK), carbon nanofiber (CNF) reinforced PEEK, and multi-scale CF and CNF reinforced PEEK composites. Scanning electron microscopy images show good fiber distribution and fiber-matrix interaction, as well as surface crystallization of PEEK from the fiber surfaces. Tensile modulus and strength increase most significantly with the addition of CF but with a loss in ductility. The multi-scale composite of CF-CNF-PEEK displays the stiffening effect from the CF and retains more ductility due to the CNF. Further, the CF-CNF-PEEK composite displays the highest impact energy absorption. This study shows that good mixing of CFs and CNFs is achievable in PEEK using a uniform, high shear processing method that can easily produce intricate shapes and provides a stiff, high impact energy absorption multi-scale carbon fiber-reinforced composite.
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