Impact and semi-static performance of thermoplastic composites
This final year project aims to examine the impact and semi-static impact of thermoplastic composites, specifically Carbon Fiber Fabric-Reinforced Poylamide 6 thermoplastic composite laminates. Data obtained are then analyzed. Composites are first fabricated using the hot press compression pro...
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| 其他作者: | |
| 格式: | Final Year Project |
| 語言: | English |
| 出版: |
Nanyang Technological University
2023
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| 主題: | |
| 在線閱讀: | https://hdl.handle.net/10356/168084 |
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| 總結: | This final year project aims to examine the impact and semi-static impact of thermoplastic
composites, specifically Carbon Fiber Fabric-Reinforced Poylamide 6 thermoplastic composite
laminates. Data obtained are then analyzed.
Composites are first fabricated using the hot press compression process. Carbon Fiber Fabric
(2x2 twill) is used while the polymer matrix PA6 is used. Mechanical experiments such as
compression, 3-point flexural and impact are performed according to ASTM Standards to
understand and characterize the properties of the material. A bandsaw is used to obtain the
preferred specimen dimensions before mechanical testing is performed.
Impact properties are obtained using a drop-weight impact event. Semi-static properties are
obtained using compression and flexural test (3-point) tests. Test data obtained are used to plot
stress-strain, force-displacement, and other types of graphs to obtain further information.
Values like the ultimate tensile strength, yield point, maximum compressive stress, maximum
flexural stress can be obtained from the graphs. The failure modes of the specimens are also
investigated using the optical microscope. Parameters like the thickness of the laminate, which
can vary due to manufacturing, can affect the performance of the material.
The results from the various tests show that Carbon Fiber reinforced Poylamide6 thermoplastic
composite laminates have good flexural, compression and impact properties. However, more
tests and experiments can be conducted to improve these material as they have a common
failing point in the weft and warp fiber bundles. |
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