Dynamic mechanical analysis of Arenga pinnata fibre reinforced epoxy composites / Abdul Hakim Abdullah ... [et al.]
The relatively higher costs of synthetic fibres (glass, carbon, kevlar fibre) used in fibre reinforced composite materials make it desirable to investigate natural fibres as a source of possible reinforcement in low-cost applications Arenga pinnata or sugar palm is one of the abundance and readily a...
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2014
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my.uitm.ir.668952022-09-19T02:49:25Z https://ir.uitm.edu.my/id/eprint/66895/ Dynamic mechanical analysis of Arenga pinnata fibre reinforced epoxy composites / Abdul Hakim Abdullah ... [et al.] Abdullah, Abdul Hakim Khalid, Muhamad Faris Syafiq Alias, Siti Khadijah Berhan, Mohammad Nor Epoxy compounds Palms The relatively higher costs of synthetic fibres (glass, carbon, kevlar fibre) used in fibre reinforced composite materials make it desirable to investigate natural fibres as a source of possible reinforcement in low-cost applications Arenga pinnata or sugar palm is one of the abundance and readily available material that commonly found growing wild in primary and secondary forests in Southeast Asia including in Malaysia. As a new emerging material, this material is significant because there is a need to generate the idea, to evaluate and to try to explore the new natural resources with low production cost considering on to abundance and readily available material in Malaysian tropical forest. A number of studies have been carried out to explore the potential of Arenga pinnata fiber as reinforcement in polymers composites that gave positive results [4-9] but still insufficient to warrant their fully utilization. The dynamic mechanical properties have a major influence on the response of the material and the structural integrity of the component. The change of temperature, fibre fraction and ageing of this composite could alter the dynamic mechanical properties that still unknown. If confidence in this material is to be given in such manner, much effort is needed and it is vital that full understanding, not only of the strength but also including the durability and sustainability, be achieved. In this proposed research, ageing and as produced conditions of Arenga pinnata fibre reinforced epoxy composites (APEC), fabricated from hand-layout technique with three fibre weight fractions of 10%, 30% and 45% for each conditions are subjected to tensile test and dynamic mechanical analysis. The surface morphology of specimens is examined in order to understanding its damage mechanism. 2014 Research Reports NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/66895/1/66895.pdf Dynamic mechanical analysis of Arenga pinnata fibre reinforced epoxy composites / Abdul Hakim Abdullah ... [et al.]. (2014) [Research Reports] (Unpublished) |
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Epoxy compounds Palms |
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Epoxy compounds Palms Abdullah, Abdul Hakim Khalid, Muhamad Faris Syafiq Alias, Siti Khadijah Berhan, Mohammad Nor Dynamic mechanical analysis of Arenga pinnata fibre reinforced epoxy composites / Abdul Hakim Abdullah ... [et al.] |
| description |
The relatively higher costs of synthetic fibres (glass, carbon, kevlar fibre) used in fibre reinforced composite materials make it desirable to investigate natural fibres as a source of possible reinforcement in low-cost applications Arenga pinnata or sugar palm is one of the abundance and readily available material that commonly found growing wild in primary and secondary forests in Southeast Asia including in Malaysia.
As a new emerging material, this material is significant because there is a need to generate the idea, to evaluate and to try to explore the new natural resources with low production cost considering on to abundance and readily available material in Malaysian tropical forest. A number of studies have been carried out to explore the potential of Arenga pinnata fiber as reinforcement in polymers composites that gave positive results [4-9] but still insufficient to warrant their fully utilization. The dynamic mechanical properties have a major influence on the response of the material and the structural integrity of the component. The change of temperature, fibre fraction and ageing of this composite could alter the dynamic mechanical properties that still unknown. If confidence in this material is to be given in such manner, much effort is needed and it is vital that full understanding, not only of the strength but also including the durability and sustainability, be achieved.
In this proposed research, ageing and as produced conditions of Arenga pinnata fibre reinforced epoxy composites (APEC), fabricated from hand-layout technique with three fibre weight fractions of 10%, 30% and 45% for each conditions are subjected to tensile test and dynamic mechanical analysis. The surface morphology of specimens is examined in order to understanding its damage mechanism. |
| format |
Research Reports |
| author |
Abdullah, Abdul Hakim Khalid, Muhamad Faris Syafiq Alias, Siti Khadijah Berhan, Mohammad Nor |
| author_facet |
Abdullah, Abdul Hakim Khalid, Muhamad Faris Syafiq Alias, Siti Khadijah Berhan, Mohammad Nor |
| author_sort |
Abdullah, Abdul Hakim |
| title |
Dynamic mechanical analysis of Arenga pinnata fibre reinforced epoxy composites / Abdul Hakim Abdullah ... [et al.] |
| title_short |
Dynamic mechanical analysis of Arenga pinnata fibre reinforced epoxy composites / Abdul Hakim Abdullah ... [et al.] |
| title_full |
Dynamic mechanical analysis of Arenga pinnata fibre reinforced epoxy composites / Abdul Hakim Abdullah ... [et al.] |
| title_fullStr |
Dynamic mechanical analysis of Arenga pinnata fibre reinforced epoxy composites / Abdul Hakim Abdullah ... [et al.] |
| title_full_unstemmed |
Dynamic mechanical analysis of Arenga pinnata fibre reinforced epoxy composites / Abdul Hakim Abdullah ... [et al.] |
| title_sort |
dynamic mechanical analysis of arenga pinnata fibre reinforced epoxy composites / abdul hakim abdullah ... [et al.] |
| publishDate |
2014 |
| url |
https://ir.uitm.edu.my/id/eprint/66895/1/66895.pdf https://ir.uitm.edu.my/id/eprint/66895/ |
| _version_ |
1744651662370275328 |
| score |
13.160551 |