Fused deposition modelling approach using 3D printing and recycled industrial materials for a sustainable environment: a review
According to research findings of many peer-reviewed studies, up to 90% of household items may be made of plastic. But nowadays, just a small portion of plastic waste is recycled. Plastic pyrolysis and polymer breakdown are environmentally hazardous. Processing is, therefore, necessary for recycling...
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| Veröffentlicht in: | International journal of advanced manufacturing technology 2022, Vol.122 (5-6), p.2125-2138 |
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| creator | Madhu, Nithar Ranjan Erfani, Hadi Jadoun, Sapana Amir, Mohammad Thiagarajan, Y. Chauhan, Narendra Pal Singh |
| description | According to research findings of many peer-reviewed studies, up to 90% of household items may be made of plastic. But nowadays, just a small portion of plastic waste is recycled. Plastic pyrolysis and polymer breakdown are environmentally hazardous. Processing is, therefore, necessary for recycling. Plastics are constantly being manufactured and require minimal processing, necessitating innovation. Plastic recycling is becoming a major issue for environmentalists and waste management professionals. Fused deposition modelling, or FDM, is one of the most popular types of additive manufacturing. It uses the melt extrusion process to deposit filaments of thermal polymers in a predetermined pattern. Using a computer-generated design, 3D printing, sometimes referred to as additive manufacturing, is a technique for building three-dimensional objects layer by layer. A 3D item is produced by the additive method of 3D printing, which involves building up layers of material. To make a three-dimensional object, FDM printers eject a thermoplastic filament that has been heated to its melting point layer by layer. 3D printing is a rapidly expanding industry and the market in this field has grown up to 23% by 2021. Several experiments on new 3D printing materials have been carried out to reduce pollution and the supply of plastic. Various additives have been investigated to increase recycled polymers’ molecular weight and mechanical properties. The most frequent type of fibre found in that is thermoplastic fibre. In this instance, waste ABS (acrylonitrile butadiene styrene) plastic from industrial FDM printers was gathered and examined in a bustling open shop. In this review, we discussed the use of recyclable polymers in 3D printing for waste material management.
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| doi_str_mv | 10.1007/s00170-022-10048-y |
| format | Article |
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But nowadays, just a small portion of plastic waste is recycled. Plastic pyrolysis and polymer breakdown are environmentally hazardous. Processing is, therefore, necessary for recycling. Plastics are constantly being manufactured and require minimal processing, necessitating innovation. Plastic recycling is becoming a major issue for environmentalists and waste management professionals. Fused deposition modelling, or FDM, is one of the most popular types of additive manufacturing. It uses the melt extrusion process to deposit filaments of thermal polymers in a predetermined pattern. Using a computer-generated design, 3D printing, sometimes referred to as additive manufacturing, is a technique for building three-dimensional objects layer by layer. A 3D item is produced by the additive method of 3D printing, which involves building up layers of material. To make a three-dimensional object, FDM printers eject a thermoplastic filament that has been heated to its melting point layer by layer. 3D printing is a rapidly expanding industry and the market in this field has grown up to 23% by 2021. Several experiments on new 3D printing materials have been carried out to reduce pollution and the supply of plastic. Various additives have been investigated to increase recycled polymers’ molecular weight and mechanical properties. The most frequent type of fibre found in that is thermoplastic fibre. In this instance, waste ABS (acrylonitrile butadiene styrene) plastic from industrial FDM printers was gathered and examined in a bustling open shop. In this review, we discussed the use of recyclable polymers in 3D printing for waste material management.
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| identifier | ISSN: 0268-3768 |
| ispartof | International journal of advanced manufacturing technology, 2022, Vol.122 (5-6), p.2125-2138 |
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| source | Springer Nature - Complete Springer Journals |
| subjects | 3-D printers ABS resins Acrylonitrile butadiene styrene Additive manufacturing Additives CAD CAE) and Design Computer aided design Computer-Aided Engineering (CAD Critical Review Deposition Engineering Extrusion Filaments Fused deposition modeling Hard surfacing Industrial and Production Engineering Manufacturing Mechanical Engineering Mechanical properties Media Management Melting points Polymers Printers Pyrolysis Rapid prototyping Recycled materials Recycling Three dimensional printing Waste management |
| title | Fused deposition modelling approach using 3D printing and recycled industrial materials for a sustainable environment: a review |
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