| Title | Valorization of Recycled Tire Rubber for 3D Printing of ABS- and TPO-Based Composites |
|---|---|
| ID_Doc | 10852 |
| Authors | Laoutid, F; Lafqir, S; Toncheva, A; Dubois, P |
| Title | Valorization of Recycled Tire Rubber for 3D Printing of ABS- and TPO-Based Composites |
| Year | 2021 |
| Published | Materials, 14, 19 |
| Abstract | Vulcanized and devulcanized ground tire rubber microparticles have been used as a minor phase in acrylonitrile butadiene styrene copolymer (ABS) and thermoplastic polyolefins (TPO) for the development of materials with desired functionalities by 3D printing. These polymers have been selected because they (i) present part of the plastic waste generated by the automotive industry and (ii) have totally different properties (ABS for its stiffness and robustness and TPO for its softness and ductility). The study aims to improve the circular economy of the automotive industry by proposing a promising route for recycling the generated tire rubber waste. In this respect, emergent technology for plastic processing such as 3D printing is used, as part of the additive manufacturing technologies for the prolongated end of life of recycled plastics originated from automotive waste such as ABS and TPO. The obtained results revealed that (i) the composites are suitable for successful filament production with desired composition and diameter required for successful 3D printing by fused deposition modeling, and that (ii) the optimization of the composition of the blends allows the production of materials with interesting mechanical performances. Indeed, some of the investigated ABS-recycled rubber tire blends exhibit high impact properties as TPO-based composites do, which in addition exhibits elongation at break higher than 500% and good compression properties, accompanied with good shape recovery ratio after compression. |
| https://www.mdpi.com/1996-1944/14/19/5889/pdf?version=1633932365 |
Similar Articles
| ID | Score | Article |
|---|---|---|
29272
|
Nguyen, HT; Crittenden, K; Weiss, L; Bardaweel, H Recycle of waste tire rubber in a 3D printed composite with enhanced damping properties(2022) | |
| 9946
|
Magagula, SI; Lebelo, K; Motloung, TM; Mokhena, TC; Mochane, MJ Recent advances on waste tires: bibliometric analysis, processes, and waste management approaches(2023)Environmental Science And Pollution Research, 30.0, 56 | |
| 14471
|
Fazli, A; Rodrigue, D Recycling Waste Tires into Ground Tire Rubber (GTR)/Rubber Compounds: A Review(2020)Journal Of Composites Science, 4, 3 | |
| 10268
|
Singh, P; Singh, DN Polymer composites from waste plastics and reclaimed rubber from tires for sustainable development(2024) | |
| 29892
|
Badini, S; Graziosi, S; Carboni, M; Regondi, S; Pugliese, R Sustainable 3D printing with recycled tire rubber-based filaments: an investigation of process parameters and mechanical behaviour(2024)Rapid Prototyping Journal, 30.0, 3 | |
| 14742
|
Markl, E; Lackner, M Devulcanization Technologies for Recycling of Tire-Derived Rubber: A Review(2020)Materials, 13, 5 | |
| 15536
|
Bowles, AJ; Fowler, GD; O'Sullivan, C; Parker, K Sustainable rubber recycling from waste tyres by waterjet: A novel mechanistic and practical analysis(2020) | |
| 13079
|
Wisniewska, P; Wang, SF; Formela, K Waste tire rubber devulcanization technologies: State-of-the-art, limitations and future perspectives(2022) | |
| 26239
|
Innes, JR; Siddique, N; Hebda, M; Thompson, G; Wang, XL; Coates, P; Whiteside, B; Benkreira, H; Caton-Rose, P; Lu, CH; Wang, Q; Kelly, A Micromechanical modeling of devulcanized ground tyre rubber, graphene platelets, and carbon black in recycled natural rubber blends(2023)Journal Of Applied Polymer Science, 140, 38 | |
| 9955
|
Formela, K Waste tire rubber-based materials: Processing, performance properties and development strategies(2022)Advanced Industrial And Engineering Polymer Research, 5.0, 4 |