A New Fiber Preform with Nanocarbon Binder for Manufacturing Carbon Fiber Reinforced Composite by Liquid Molding Process
| Autor: | Wonoh Lee, Jong Rok Ha, Dong Gi Seong, Jea Uk Lee, Byung Sun Kim |
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| Rok vydání: | 2016 |
| Předmět: |
chemistry.chemical_classification
Materials science Graphene Composite number Biomedical Engineering Bioengineering General Chemistry Process variable Molding (process) Polymer Condensed Matter Physics law.invention Electrophoretic deposition chemistry law Surface modification General Materials Science Fiber Composite material |
| Zdroj: | Journal of nanoscience and nanotechnology. 15(11) |
| ISSN: | 1533-4899 |
| Popis: | Carbon fiber reinforced composite has been a good candidate of lightweight structural component in the automotive industry. As fast production speed is essential to apply the composite materials for the mass production area such as automotive components, the high speed liquid composite molding processes have been developed. Fast resin injection through the fiber preform by high pressure is required to improve the production speed, but it often results in undesirable deformations of the fiber preform which causes defectives in size and properties of the final composite products. In order to prevent the undesirable deformation and improve the stability of preform shape, polymer type binder materials are used. More stable fiber preform can be obtained by increasing the amount of binder material, but it disturbs the resin impregnation through the fiber preform. In this study, carbon nanomaterials such as graphene oxide were embedded on the surface of carbon fiber by electrophoretic deposition method in order to improve the shape stability of fiber preform and interfacial bonding between polymer and the reinforcing fiber. Effects of the modified reinforcing fiber were investigated in two respects. One is to increase the binding energy between fiber tows, and the other is to increase the interfacial bonding between polymer matrix and fiber surface. The effects were analyzed by measuring the binding force of fiber preform and interlaminar shear strength of the composite. This study also investigated the high speed liquid molding process of the composite materials composed of polymer matrix and the carbon fiber preforms embedded by carbon nanomaterials. Process parameter such as permeability of fiber preform was measured to investigate the effect of nanoscale surface modification on the macroscale processing condition for composite manufacturing. |
| Databáze: | OpenAIRE |
| Externí odkaz: |
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