Fabrication of the carbon fiber reinforced plastic (CFRP) cone tube through the laboratory-scale 3-axis winding machine
Filament winding process is one of the composite fabrication methods, which has relative lower manufacturing costs, higher efficiency and automation. It is commonly used to manufacture axisymmetric composite products, such as tubes, vessels, and domes, which is mainly used in aerospace, military and...
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2021
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my.ump.umpir.356212022-11-08T01:56:39Z http://umpir.ump.edu.my/id/eprint/35621/ Fabrication of the carbon fiber reinforced plastic (CFRP) cone tube through the laboratory-scale 3-axis winding machine Ma, Quanjin Ge, Jia Mohd Ruzaimi, Mat Rejab Sun, Bo Ding, Yajun Nie, Xiaohan Pang, Hao T Technology (General) TA Engineering (General). Civil engineering (General) TJ Mechanical engineering and machinery TL Motor vehicles. Aeronautics. Astronautics Filament winding process is one of the composite fabrication methods, which has relative lower manufacturing costs, higher efficiency and automation. It is commonly used to manufacture axisymmetric composite products, such as tubes, vessels, and domes, which is mainly used in aerospace, military and defense technology. However, it is a challenging task to fabricate a composite cone structure with the high winding angle through a laboratory-scale 3-axis winding machine. This paper aims to design and fabricate the carbon fiber reinforced plastic (CFRP) cone tube by using a low-cost filament winding machine. The cone mandrel was designed and prepared using additive printing technique. Dry and wet winding processes were conducted with yarn and 3K carbon fiber tow, respectively. The CFRP cone tube was successfully designed and fabricated with a winding angle of 75.11°±0.12°. It can be concluded that the wet winding process provides better winding quality and higher surface smoothness compared to the dry winding process. Moreover, the compressive modulus was 1.62 GPa, and the maximum compressive stress was 16.29MPa under quasi-static compression loading. Elsevier Ltd 2021 Conference or Workshop Item PeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/35621/1/Fabrication%20of%20the%20carbon%20fiber%20reinforced%20plastic%20%28CFRP%29%20cone%20tube%20through%20the%20laboratory-scale%203-axis.pdf pdf en http://umpir.ump.edu.my/id/eprint/35621/2/Fabrication%20of%20the%20carbon%20%EF%AC%81ber%20reinforced%20plastic%20%28CFRP%29%20cone%20tube%20through%20the%20laboratory-scale%203-axis%20winding%20machine_Abs.pdf Ma, Quanjin and Ge, Jia and Mohd Ruzaimi, Mat Rejab and Sun, Bo and Ding, Yajun and Nie, Xiaohan and Pang, Hao (2021) Fabrication of the carbon fiber reinforced plastic (CFRP) cone tube through the laboratory-scale 3-axis winding machine. In: Materials Today: Proceedings, Innovative Manufacturing, Mechatronics & Materials Forum 2020, 6 August 2020 , Virtual Conference, Universiti Malaysia Pahang, Malaysia. pp. 1645-1651., 46 (Part 4). ISSN 2214-7853 https://doi.org/10.1016/j.matpr.2020.07.259 |
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T Technology (General) TA Engineering (General). Civil engineering (General) TJ Mechanical engineering and machinery TL Motor vehicles. Aeronautics. Astronautics Ma, Quanjin Ge, Jia Mohd Ruzaimi, Mat Rejab Sun, Bo Ding, Yajun Nie, Xiaohan Pang, Hao Fabrication of the carbon fiber reinforced plastic (CFRP) cone tube through the laboratory-scale 3-axis winding machine |
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Filament winding process is one of the composite fabrication methods, which has relative lower manufacturing costs, higher efficiency and automation. It is commonly used to manufacture axisymmetric composite products, such as tubes, vessels, and domes, which is mainly used in aerospace, military and defense technology. However, it is a challenging task to fabricate a composite cone structure with the high winding angle through a laboratory-scale 3-axis winding machine. This paper aims to design and fabricate the carbon fiber reinforced plastic (CFRP) cone tube by using a low-cost filament winding machine. The cone mandrel was designed and prepared using additive printing technique. Dry and wet winding processes were conducted with yarn and 3K carbon fiber tow, respectively. The CFRP cone tube was successfully designed and fabricated with a winding angle of 75.11°±0.12°. It can be concluded that the wet winding process provides better winding quality and higher surface smoothness compared to the dry winding process. Moreover, the compressive modulus was 1.62 GPa, and the maximum compressive stress was 16.29MPa under quasi-static compression loading. |
format |
Conference or Workshop Item |
author |
Ma, Quanjin Ge, Jia Mohd Ruzaimi, Mat Rejab Sun, Bo Ding, Yajun Nie, Xiaohan Pang, Hao |
author_facet |
Ma, Quanjin Ge, Jia Mohd Ruzaimi, Mat Rejab Sun, Bo Ding, Yajun Nie, Xiaohan Pang, Hao |
author_sort |
Ma, Quanjin |
title |
Fabrication of the carbon fiber reinforced plastic (CFRP) cone tube through the laboratory-scale 3-axis winding machine |
title_short |
Fabrication of the carbon fiber reinforced plastic (CFRP) cone tube through the laboratory-scale 3-axis winding machine |
title_full |
Fabrication of the carbon fiber reinforced plastic (CFRP) cone tube through the laboratory-scale 3-axis winding machine |
title_fullStr |
Fabrication of the carbon fiber reinforced plastic (CFRP) cone tube through the laboratory-scale 3-axis winding machine |
title_full_unstemmed |
Fabrication of the carbon fiber reinforced plastic (CFRP) cone tube through the laboratory-scale 3-axis winding machine |
title_sort |
fabrication of the carbon fiber reinforced plastic (cfrp) cone tube through the laboratory-scale 3-axis winding machine |
publisher |
Elsevier Ltd |
publishDate |
2021 |
url |
http://umpir.ump.edu.my/id/eprint/35621/1/Fabrication%20of%20the%20carbon%20fiber%20reinforced%20plastic%20%28CFRP%29%20cone%20tube%20through%20the%20laboratory-scale%203-axis.pdf http://umpir.ump.edu.my/id/eprint/35621/2/Fabrication%20of%20the%20carbon%20%EF%AC%81ber%20reinforced%20plastic%20%28CFRP%29%20cone%20tube%20through%20the%20laboratory-scale%203-axis%20winding%20machine_Abs.pdf http://umpir.ump.edu.my/id/eprint/35621/ https://doi.org/10.1016/j.matpr.2020.07.259 |
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1751536385203896320 |
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13.211869 |