| Title | Preparation of Sustainable Composite Materials from Bio-Based Domestic and Industrial Waste: Progress, Problems, and Prospects- A Review |
|---|---|
| ID_Doc | 6761 |
| Authors | Rehman, NU; Ullah, KS; Sajid, M; Ihsanullah, I; Waheed, A |
| Title | Preparation of Sustainable Composite Materials from Bio-Based Domestic and Industrial Waste: Progress, Problems, and Prospects- A Review |
| Year | 2024 |
| Published | Advanced Sustainable Systems, 8, 8 |
| Abstract | Bio-based waste from households and industries is a big problem for the world, however, turning it into valuable composite materials can offer a promising approach to deal with it. It involves the conversion of waste from different bio-based sources such as cellulose waste from farming and forestry leftovers, chitin waste from seafood and mushrooms, and keratin waste from hair, nails, and feathers into natural fibers. These fibers are then effectively mixed with other materials to create composite materials having unique properties, such as high strength and stiffness, good thermal and electrical conductivity, and better barrier properties. Developing these materials is not just good for the environment because it reduces landfill waste and the reliance on non-renewable resources, but it can also make economic sense for producers. In this review, the basic compounds of natural fibers and the development of composite materials from them are explored and discussed in detail. Furthermore, their chemical and mechanical properties are discussed and summarized. In the final section, a brief overview of the challenges and the future research needed in this fast-evolving field is given. Domestic and industrial bio-based waste poses a significant global challenge. However, converting it into valuable composite materials offers a promising solution. This involves converting waste from bio-based sources into natural fibers, which are then combined with other materials to synthesize composites with unique properties. This approach not only addresses environmental issues but also holds economic benefits. image |
Similar Articles
| ID | Score | Article |
|---|---|---|
16499
|
Bari, E; Sistani, A; Morrell, JJ; Pizzi, A; Akbari, MR; Ribera, J Current Strategies for the Production of Sustainable Biopolymer Composites(2021)Polymers, 13, 17 | |
| 8185
|
Das, O; Babu, K; Shanmugam, V; Sykam, K; Tebyetekerwa, M; Neisiany, RE; Försth, M; Sas, G; Gonzalez-Libreros, J; Capezza, AJ; Hedenqvist, MS; Berto, F; Ramakrishna, S Natural and industrial wastes for sustainable and renewable polymer composites(2022) | |
| 12869
|
Phiri, R; Rangappa, SM; Siengchin, S; Oladijo, OP; Dhakal, HN Development of sustainable biopolymer-based composites for lightweight applications from agricultural waste biomass: A review(2023)Advanced Industrial And Engineering Polymer Research, 6.0, 4 | |
| 14714
|
Andrew, JJ; Dhakal, HN Sustainable biobased composites for advanced applications: recent trends and future opportunities - A critical review(2022) | |
| 10302
|
Aliotta, L; Gigante, V; Coltelli, MB; Cinelli, P; Lazzeri, A Evaluation of Mechanical and Interfacial Properties of Bio-Composites Based on Poly(Lactic Acid) with Natural Cellulose Fibers(2019)International Journal Of Molecular Sciences, 20, 4 | |
| 32874
|
Mitra, BC Environment Friendly Composite Materials: Biocomposites and Green Composites(2014)Defence Science Journal, 64.0, 3 | |
| 29622
|
Möhl, C; Weimer, T; Caliskan, M; Baz, S; Bauder, HJ; Gresser, GT Development of Natural Fibre-Reinforced Semi-Finished Products with Bio-Based Matrix for Eco-Friendly Composites(2022)Polymers, 14.0, 4 | |
| 5817
|
Czarnecka-Komorowska, D; Wachowiak, D; Gizelski, K; Kanciak, W; Ondrusova, D; Pajtasová, M Sustainable Composites Containing Post-Production Wood Waste as a Key Element of the Circular Economy: Processing and Physicochemical Properties(2024)Sustainability, 16, 4 | |
| 8325
|
Mbeche, SM; Wambua, PM; Githinji, DN A Review on Recent Developments on Waste Human Hair Composite and Its Hybrids(2024)Journal Of Natural Fibers, 21.0, 1 | |
| 10336
|
Khilji, IA; Chilakamarry, CR; Surendran, AN; Kate, K; Satyavolu, J Natural Fiber Composite Filaments for Additive Manufacturing: A Comprehensive Review(2023)Sustainability, 15, 23 |