Effect of High Temperature on Fiber/Matrix Interfacial Properties for Carbon Fiber/Polyphenylenesulfide Model Composites

Kazuto Tanaka; Jun Nishio; Tsutao Katayama; Shinichi Enoki

doi:10.4028/www.scientific.net/KEM.627.173

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HomeKey Engineering MaterialsKey Engineering Materials Vol. 627Effect of High Temperature on Fiber/Matrix...

Effect of High Temperature on Fiber/Matrix Interfacial Properties for Carbon Fiber/Polyphenylenesulfide Model Composites

Abstract:

To use Carbon Fiber Reinforced Thermoplastics (CFRTP) for automobile applications, mechanical properties of CFRTP under actual operating temperatures are needed to be clarified. When focusing on heat resistance of CFRTP, to use Polyphenylenesulfide (PPS) for the matrix is desirable. However, the effect of high temperature on mechanical properties of CFRTP using PPS has not been clarified yet. In this study, single fiber pull-out tests of CF/PPS model composites under high temperature were conducted to reveal the fiber/matrix interfacial properties.

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Periodical:

Key Engineering Materials (Volume 627)

Pages:

173-176

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.627.173

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Online since:

September 2014

Authors:

Kazuto Tanaka*, Jun Nishio, Tsutao Katayama, Shinichi Enoki

Keywords:

Carbon Fiber, CFRTP, Fiber Matrix Interfacial Properties, High Temperature, Polyphenylenesulfide (PPS), Thermoplastics

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References

[1] A. R. Offringa: Thermoplastic composites – rapid processing applications, Composites PartA, Vol.27A, (1996), pp.329-336.

Google Scholar

[2] K. Tanaka, S Mizuno, H. Honda, T Katayama, S. Enoki: Effect of Water Absorption on the Mechanical Properties of Carbon Fiber/Polyamide composites, Journal of Solid Mechanics and Materials Engineering, Vol.7, No.5, (2013), pp.520-529.

DOI: 10.1299/jmmp.7.520

Google Scholar

[3] N. A. Saad, M. S. Hamzah, A. F. Hamzah: Study of Fatigue Behavior of Composite Materials with the Basis of Polyphenylene Sulfide (PPS) Reinforced with Glass Fiber and Carbon, International Journal of Engineering and Technology, Vol.3, No.4, (2013), pp.467-475.

Google Scholar

[4] B. Vielle, L. Taleb: About the influence of temperature and matrix ductility on the behavior of carbon woven-ply PPS or epoxy laminates: Notched and unnotched laminates, Composites Science and Technology, Vol.71, (2011), pp.998-1007.

DOI: 10.1016/j.compscitech.2011.03.006

Google Scholar

[5] K. Tanaka, Y. Masabe, T Katayama: Evaluation of Interfacial Properties for Carbon Fiber/Polyamide Model Composites by Means of Single Fiber Pull-Out Test, Journal of the Society of Materials Science, Vol. 58, No.7, (2009), pp.635-641.

DOI: 10.2472/jsms.58.635

Google Scholar

[6] K. Tanaka, H. Kashihara, T. Katayama, Vacuum Assisted High Speed Compression Molding and Evaluation of Mechanical Properties of Continuous Carbon Fiber Reinforced Polycarbonate Composite, Journal of the Society of Materials Science, Japan, Vol. 60, No. 3, (2011), pp.251-258.

DOI: 10.2472/jsms.60.251

Google Scholar