期刊
POLYMER INTERNATIONAL
卷 70, 期 8, 页码 1090-1098出版社
WILEY
DOI: 10.1002/pi.6227
关键词
poly(ether‐ ether‐ ketone); MWCNT; nanocomposites; dispersion; mechanical properties; CTE
资金
- consortium for Advancing Performance Polymers for Energy Applications (APPEAL) at Texas AM University
- Ocean Energy Safety Institute (OESI)
- Bureau of Safety and Environment Enforcement (BSEE) of the US Department of the Interior [E14AC00001]
A simple solution mixing approach was used to prepare PEEK nanocomposites reinforced with well-dispersed MWCNTs, which did not affect the thermal stability of PEEK but increased Young's modulus and decreased coefficient of thermal expansion, making it suitable for various high-temperature applications.
Incorporation of reinforcing nanoparticles, like multi-walled carbon nanotubes (MWCNTs), in a polymer matrix is an effective way to enhance mechanical properties and expand structural applications of engineering polymers such as poly(ether-ether-ketone) (PEEK). Good dispersion of MWCNTs is critical for achieving optimal properties. In this work, a simple solution mixing approach was utilized to prepare PEEK nanocomposites reinforced with MWCNTs. By direct mixing of PEEK/dichloroacetic acid solution and MWCNT/N-methyl-2-pyrrolidone solution, PEEK nanocomposites with individually dispersed MWCNTs were prepared. A PEEK wrapping of MWCNT mechanism is proposed to explain why this simple solution mixing approach resulted in such a good dispersion. Thermal stability of PEEK is not affected but crystallization is impeded due to the confinement effect of well-dispersed MWCNTs. Young's modulus is increased by ca 20% while coefficient of thermal expansion above the glass transition temperature is decreased by ca 30% with only 1.5 wt% MWCNT loading in PEEK, which is critical for a variety of high-temperature applications. (c) 2021 Society of Industrial Chemistry.
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