Flexural properties for two-ply glass fiber reinforced composites with different loading of CNT/Epoxy film produced by different methods
Background: Composite materials reinforced by glass fibers are widely used in various applications ranging from aerospace to sporting goods due to their remarkable properties including high strength to weight ratio and high modulus to weight ratio. However, the addition of nanoparticles as reinfo...
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| Main Authors: | , , , |
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| Format: | E-Article |
| Language: | English |
| Published: |
AENSI
2014
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| Subjects: | |
| Online Access: | http://ir.unimas.my/id/eprint/20271/1/Flexural%20properties%20for%20two-ply%20glass%20fiber%20reinforced%20composites%20%28abstract%29.pdf http://ir.unimas.my/id/eprint/20271/ |
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| Summary: | Background: Composite materials reinforced by glass fibers are widely used in various
applications ranging from aerospace to sporting goods due to their remarkable
properties including high strength to weight ratio and high modulus to weight ratio.
However, the addition of nanoparticles as reinforcement shows promising results for
properties enhancements. Unique properties of nanoparticles such as carbon nanotubes
(CNTs) make them potential candidates for many applications from mechanical
enhancements to electrical and thermal conductivities. Objective: In this work, the
effect of CNTs loadings and different methods used to fabricate CNT/epoxy film on
flexural properties of two-ply glass fiber reinforced composites were investigated.
Various CNTs loadings ranged from 0 vol% to 2.0 vol% were used to fabricate the
films by using casting and hot press methods. The films were then stacked in between
2-ply of glass fiber reinforced epoxy composite by vacuum bagging process. Results:
The results shows that the 0.5 vol% cured CNTs/epoxy film fabricated by using hot
press method demonstrated better flexural properties compared to other CNTs loadings
and fabrication methods. Hot-press sample shows improvements in flexural strength
and modulus which were 190.5% and 368.6% respectively followed by casting (187.2%
and 360.0%) and prepreg (169.8% and 330.8%) compared to the neat glass fiber
composite. However, the glass fiber reinforced composite with 2.0 vol% CNTs film
shows lower improvement (72.0% and 152.7%). Conclusion: Casting and hot press
methods were used to fabricate film and the flexural properties of two-ply glass fiber
reinforced composites were investigated. The results exhibited that the flexural
properties were influenced by properties of the film, methods to produce film and the
adhesion between film and glass fiber mats. For future works, it is aimed to optimize
film and laminates processing parameters to enhance structural properties of the fiber
reinforced composites. |
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