| Title | Waste tire rubber-based materials: Processing, performance properties and development strategies |
|---|---|
| ID_Doc | 9955 |
| Authors | Formela, K |
| Title | Waste tire rubber-based materials: Processing, performance properties and development strategies |
| Year | 2022 |
| Published | Advanced Industrial And Engineering Polymer Research, 5.0, 4 |
| Abstract | In the many countries the main strategy for waste tires utilization is still energy recovery, which use waste tires as low-cost and high-calorific alternative fuel. Although, energy recovery is step forward for suitable waste tires collection and management, it should not be considered as a green and environmentally-friendly method. Waste tires recycling and upcycling technologies are crucial for further realization of circular economy strategies. Therefore, improvement of already existed and searching for new methods of waste tires industrial applications are fully justified. In this work, recent advances in development of waste tire rubber-based materials characterized by high content of ground tire rubber (defined as minimum 70 wt%) are presented and discussed. A special attention was focused on the correlation between sustainable treatment or functionalization of waste tire rubber and the structure-property relationships of the prepared materials. Moreover, the main problems and challenges affecting the possible industrial application of materials highly modified by waste tire rubber are also highlighted. (c) 2022 Kingfa Scientific and Technological Co. Ltd. Publishing services by Elsevier B.V. on behalf of KeAi Communications Co. Ltd. This is an open access article under the CC BY license (http://creativecommons. org/licenses/by/4.0/). |
Similar Articles
| ID | Score | Article |
|---|---|---|
14471
|
Fazli, A; Rodrigue, D Recycling Waste Tires into Ground Tire Rubber (GTR)/Rubber Compounds: A Review(2020)Journal Of Composites Science, 4, 3 | |
| 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 | |
| 3594
|
Goevert, D The value of different recycling technologies for waste rubber tires in the circular economy-A review(2024) | |
| 13079
|
Wisniewska, P; Wang, SF; Formela, K Waste tire rubber devulcanization technologies: State-of-the-art, limitations and future perspectives(2022) | |
| 2414
|
Hassan, MR; Rodrigue, D Application of Waste Tire in Construction: A Road towards Sustainability and Circular Economy(2024)Sustainability, 16, 9 | |
| 24646
|
Saputra, R; Walvekar, R; Khalid, M; Mubarak, NM; Sillanpää, M Current progress in waste tire rubber devulcanization(2021) | |
| 7432
|
Al-Attar, AA; Hamada, HM; Tayeh, BA; Awoyera, PO Exploring engineering properties of waste tire rubber for construction applications - a review of recent advances(2022) | |
| 14742
|
Markl, E; Lackner, M Devulcanization Technologies for Recycling of Tire-Derived Rubber: A Review(2020)Materials, 13, 5 | |
| 29830
|
Zhang, YX; Zhang, Z; Wemyss, AM; Wan, CY; Liu, YT; Song, P; Wang, SF Effective Thermal-Oxidative Reclamation of Waste Tire Rubbers for Producing High-Performance Rubber Composites(2020)Acs Sustainable Chemistry & Engineering, 8.0, 24 | |
| 13739
|
Moulin, L; Da Silva, S; Bounaceur, A; Herblot, M; Soudais, Y Assessment of Recovered Carbon Black Obtained by Waste Tires Steam Water Thermolysis: An Industrial Application(2017)Waste And Biomass Valorization, 8, 8 |