Effect of Core Material Thickness on the Shore Hardness of the Sandwich-Structured Multi-Material 3D-Printed Parts
Fused Filament Fabrication (FFF) continues to experience improvements in terms of its flexibility and functionality, therefore it attracts public attention to use this technology. Multi-Material Additive Manufacturing (MMAM) is an approach in the FFF technology that allows the manufacturing of 3D-pr...
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| Published in | Applied mechanics and materials Vol. 920; pp. 35 - 42 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Zurich
Trans Tech Publications Ltd
05.03.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1660-9336 1662-7482 1662-7482 |
| DOI | 10.4028/p-zs9Z6i |
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| Abstract | Fused Filament Fabrication (FFF) continues to experience improvements in terms of its flexibility and functionality, therefore it attracts public attention to use this technology. Multi-Material Additive Manufacturing (MMAM) is an approach in the FFF technology that allows the manufacturing of 3D-printed products composed of two or more materials in a single printing process. MMAM enables the user to apply various configurations to obtain a 3D-printed material with adjustable properties. This study aims to determine the effect of core material on the Shore hardness of the FFF printed parts with the MMAM approach. There were two types of materials combined with the MMAM approach in this work, namely polylactic-acid (PLA) and thermoplastic elastomer (TPE). The Shore hardness test was conducted according to the ASTM D2240-15 standard. The results showed that the thickness of the core material inserted into the printed material had a significant effect on the hardness value of printed multi-material parts. In addition, the hardness value was highly dependent on the modulus of elasticity of the material. Therefore, the hardness value changed following the proportion of the printed material. |
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| AbstractList | Fused Filament Fabrication (FFF) continues to experience improvements in terms of its flexibility and functionality, therefore it attracts public attention to use this technology. Multi-Material Additive Manufacturing (MMAM) is an approach in the FFF technology that allows the manufacturing of 3D-printed products composed of two or more materials in a single printing process. MMAM enables the user to apply various configurations to obtain a 3D-printed material with adjustable properties. This study aims to determine the effect of core material on the Shore hardness of the FFF printed parts with the MMAM approach. There were two types of materials combined with the MMAM approach in this work, namely polylactic-acid (PLA) and thermoplastic elastomer (TPE). The Shore hardness test was conducted according to the ASTM D2240-15 standard. The results showed that the thickness of the core material inserted into the printed material had a significant effect on the hardness value of printed multi-material parts. In addition, the hardness value was highly dependent on the modulus of elasticity of the material. Therefore, the hardness value changed following the proportion of the printed material. |
| Author | Adib, Adam Zuyyinal Salim, Urip Agus Mahardika, Muslim Suyitno, Suyitno Pratama, Juan Arifvianto, Budi |
| Author_xml | – givenname: Adam Zuyyinal surname: Adib fullname: Adib, Adam Zuyyinal email: adamzuyyinaladib2000@mail.ugm.ac.id organization: Universitas Gadjah Mada : Department of Mechanical and Industrial Engineering, Faculty of Engineering – givenname: Muslim surname: Mahardika fullname: Mahardika, Muslim email: muslim_mahardika@ugm.ac.id organization: Universitas Gadjah Mada : Department of Mechanical and Industrial Engineering, Faculty of Engineering – givenname: Suyitno surname: Suyitno fullname: Suyitno, Suyitno email: suyitno@untidar.ac.id organization: Universitas Tidar : Department Mechanical Engineering, Faculty of Engineering – givenname: Budi surname: Arifvianto fullname: Arifvianto, Budi email: budi.arif@ugm.ac.id organization: Universitas Gadjah Mada : Department of Mechanical and Industrial Engineering, Faculty of Engineering – givenname: Juan surname: Pratama fullname: Pratama, Juan email: juan.pratama@mail.ugm.ac.id organization: Universitas Gadjah Mada : Department of Mechanical and Industrial Engineering, Faculty of Engineering – givenname: Urip Agus surname: Salim fullname: Salim, Urip Agus email: urip-as@ugm.ac.id organization: Universitas Gadjah Mada : Department of Mechanical and Industrial Engineering, Faculty of Engineering |
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| Keywords | TPE Multi-Material Additive Manufacturing Shore Hardness FFF Poly(Lactic Acid) PLA |
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| References | Brenken (4976320); 21 Keleş (4976318); 23 Han (4976332); 28 Romero (4976322); 32 Arifvianto (4976334) 2022; 7 Mustapha (4976331); 156 Sandi (4976340) 2022; 7 Lopes (4976333); 23 Phattarateera (4976335); 19 Aydin (4976326) 2021; 4 Pratama (4976319) 2021; 13 Syrlybayev (4976317) 2021; 13 Cano-Vicent (4976324); 47 Singh (4976323); 55 Uriondo (4976325) 2015; 229 Esposito Corcione (4976329); 158 Vyavahare (4976321); 26 Lendvai (4976330) 2021; 29 4976337 Biswas (4976328) 2019; 2 Pratama (4976336) 2022; 25 4976338 Silva (4976327) 2021; 2 4976339 |
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| SubjectTerms | Fused deposition modeling Manufacturing Modulus of elasticity Scleroscope tests Thermoplastic elastomers Thickness |
| Title | Effect of Core Material Thickness on the Shore Hardness of the Sandwich-Structured Multi-Material 3D-Printed Parts |
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