Characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics
Continuous fiber-reinforced polymer (FRP) composites have been used for many applications to create strong yet lightweight products due to their high strength-to-weight and stiffness-to-weight ratios. Aerospace [1], automotive [2], and sport [3]industries are three of the few industries that have be...
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sg-ntu-dr.10356-824042021-06-19T20:11:19Z Characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics Goh, Guo Dong Dikshit, Vishwesh Nagalingam, Arun Prasanth Goh, Guo Liang Agarwala, Shweta Sing, Swee Leong Wei, Jun Yeong, Wai Yee School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing Singapore Institute of Manufacturing Technology Engineering::Mechanical engineering Polymer-matrix Composites Carbon Fibers Continuous fiber-reinforced polymer (FRP) composites have been used for many applications to create strong yet lightweight products due to their high strength-to-weight and stiffness-to-weight ratios. Aerospace [1], automotive [2], and sport [3]industries are three of the few industries that have been using FRP composites. The increasing need for prototyping and customization of fiber reinforced polymer composite parts is prompting innovations in new manufacturing processes to realize short manufacturing cycle time and low production cost, which is challenging to accomplish using conventional molding process. Fused filament fabrication (FFF) - a material extrusion additive manufacturing (AM) technique trademarked as fused deposition modelling (FDM) by Stratasys- holds promise to achieve low-cost production on continuous fiber-reinforced thermoplastic (FRTP) composites. In this paper, the FFF technique is employed to fabricate continuous carbon and glass FRTP composites and its microstructural characteristics and the resulting tensile, flexural, and quasi-static indentation characteristics of the printed composites are examined. Additionally, the fracture behavior of each test sample is evaluated and discussed in detail. Agency for Science, Technology and Research (A*STAR) Accepted version This work was supported under the A*STAR TSRP – Industrial Additive Manufacturing Programme by the A*STAR Science & Engineering Research Council (SERC) [grant number 1325504105]. 2019-11-13T05:28:03Z 2019-12-06T14:54:57Z 2019-11-13T05:28:03Z 2019-12-06T14:54:57Z 2017 Journal Article Goh, G. D., Dikshit, V., Nagalingam, A. P., Goh, G. L., Agarwala, S., Sing, S. L., Wei, J. & Yeong, W. Y. (2017). Characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics. Materials and Design, 137, 79-89. https://dx.doi.org/10.1016/j.matdes.2017.10.021 0261-3069 https://hdl.handle.net/10356/82404 http://hdl.handle.net/10220/50401 10.1016/j.matdes.2017.10.021 137 79 89 en 1325504105 Materials and Design Materials and Design © 2017 Elsevier Ltd. All rights reserved. This paper was published in Materials and Design and is made available with permission of Elsevier Ltd. application/pdf |
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Engineering::Mechanical engineering Polymer-matrix Composites Carbon Fibers Goh, Guo Dong Dikshit, Vishwesh Nagalingam, Arun Prasanth Goh, Guo Liang Agarwala, Shweta Sing, Swee Leong Wei, Jun Yeong, Wai Yee Characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics |
| description |
Continuous fiber-reinforced polymer (FRP) composites have been used for many applications to create strong yet lightweight products due to their high strength-to-weight and stiffness-to-weight ratios. Aerospace [1], automotive [2], and sport [3]industries are three of the few industries that have been using FRP composites. The increasing need for prototyping and customization of fiber reinforced polymer composite parts is prompting innovations in new manufacturing processes to realize short manufacturing cycle time and low production cost, which is challenging to accomplish using conventional molding process. Fused filament fabrication (FFF) - a material extrusion additive manufacturing (AM) technique trademarked as fused deposition modelling (FDM) by Stratasys- holds promise to achieve low-cost production on continuous fiber-reinforced thermoplastic (FRTP) composites. In this paper, the FFF technique is employed to fabricate continuous carbon and glass FRTP composites and its microstructural characteristics and the resulting tensile, flexural, and quasi-static indentation characteristics of the printed composites are examined. Additionally, the fracture behavior of each test sample is evaluated and discussed in detail. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Goh, Guo Dong Dikshit, Vishwesh Nagalingam, Arun Prasanth Goh, Guo Liang Agarwala, Shweta Sing, Swee Leong Wei, Jun Yeong, Wai Yee |
| format |
Article |
| author |
Goh, Guo Dong Dikshit, Vishwesh Nagalingam, Arun Prasanth Goh, Guo Liang Agarwala, Shweta Sing, Swee Leong Wei, Jun Yeong, Wai Yee |
| author_sort |
Goh, Guo Dong |
| title |
Characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics |
| title_short |
Characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics |
| title_full |
Characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics |
| title_fullStr |
Characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics |
| title_full_unstemmed |
Characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics |
| title_sort |
characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/82404 http://hdl.handle.net/10220/50401 |
| _version_ |
1703971259335835648 |