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Paper Title : A REVIEW ON WASTE MANAGEMENT AGGREGATE - RUBBER WASTE
ISSN : 2395-1303
Year of Publication : 2022
MLA Style: -V K NITHIN A REVIEW ON WASTE MANAGEMENT AGGREGATE - RUBBER WASTE , Volume 8 - Issue 5 September - October 2022 International Journal of Engineering and Techniques (IJET) ,ISSN:2395-1303 , www.ijetjournal.org
APA Style: - V K NITHIN A REVIEW ON WASTE MANAGEMENT AGGREGATE - RUBBER WASTE , Volume 8 - Issue 5 September - October 2022 International Journal of Engineering and Techniques (IJET) ,ISSN:2395-1303 , www.ijetjournal.org
For rubber waste, energy recovery and recycling are the two most widely used methods, but prevention measures have not yet been developed. Conventional recycling processes consist of breaking down various bridges and chains to a greater or lesser extent, which impairs the elastomeric properties of recycled materials. The purpose of this review is to look at rubber longevity strategies. We take a general approach consisting of investigating both the history of rubber use and waste management, and look for more recent, possibly kinetic chemicals for elastomer recycling or life cycle extension. We looked at more efficient use.These new formulations show the potential for tomorrow's industrial rubber. Disposal and recycling of currently used rubbery objects is a current problem. Today, the meaning of rubber has been extended to include any material with mechanical properties substantially similar to rubber, regardless of chemical composition. The new term elastomer also refers to all materials with rubber-like properties. Various techniques can be used to recycle rubber.
. Buekens, Recycling in Belgium, International Congress on the Recycling of Materials, Rotterdam, Xi-27 November (1974). . P.-G. De Gennes, Scaling concepts in polymer physics, Cornell university press, 1979 . D. Montarnal, M. Capelot, F. Tournilhac and L. Leibler, Science, 2011, 334, 965-968 . L. R. G. Treloar, The physics of rubber elasticity, Oxford university press, 1975. . B. L. Chan, D. J. Elliott, M. Holley and J. F. Smith, Journal of Polymer Science: Polymer Symposia, 1974, 48, 61-86. . R. Ahmed, A. van de Klundert and I. Lardinois, RUBBER WASTE Options for Smallscale Resource Recovery Urban Solid Waste Series 3, 1996 . S. Ramarad, M. Khalid, C. Ratnam, A. L. Chuah and W. Rashmi, Progress in materials science, 2015, 72, 100-140. . R. Tripathy, J. E. Morin, D. E. Williams, S. J. Eyles and R. J. Farris, . S. B. Liang, D. P. Hu, C. Zhu and A. B. Yu, Chemical Engineering & Technology, 2002, 25, 401-405. . M. Le Neindre and R. Nicolay, Polymer Chemistry, 2014, 5, 4601-4611. . M. Sabzekar, M. P. Chenar, S. M. Mortazavi, M. Kariminejad, S. Asadi and G. Zohuri, Polymer Degradation and Stability, 2015, 118, 88-95. . F. Sadaka, I. Campistron, A. Laguerre and J.-F. Pilard, Polymer Degradation and Stability, 2013, 98, 736-742 . P. Cordier, F. Tournilhac, C. Soulié-Ziakovic and L. Leibler, Nature, 2008, 451, 977- 980 . Y.-X. Lu, F. Tournilhac, L. Leibler and Z. Guan, Journal of the American Chemical Society, 2012, 134, 8424-8427 . M. AbdolahZadeh, C. Esteves, A. Catarina, S. Zwaag and S. J. Garcia, Journal of Polymer Science Part A: Polymer Chemistry, 2014, 52, 1953-1961. . Y.-X. Lu and Z. Guan, Journal of the American Chemical Society, 2012, 134, 14226- 14231. . W. Denissen, G. Rivero, R. Nicolaÿ, L. Leibler, J. M. Winne and F. E. Du Prez, Advanced Functional Materials, 2015, 25, 2451-2457. . M. M. Obadia, B. P. Mudraboyina, A. Serghei, D. Montarnal and E. Drockenmuller, Journal of the American Chemical Society, 2015, 137, 6078-6083. . J. G. Curro and P. Pincus, Macromolecules, 1983, 16, 559-562. 86. M. A. Rahman, L. Sartore, F. Bignotti and L. Di Landro, ACS Applied Materials & Interfaces, 2013, 5, 1494-1502. . J. G. Drobny, Handbook of thermoplastic elastomers, Elsevier, 2nd edn., 2014 . Z. Wang, L. Yuan, N. M. Trenor, L. Vlaminck, S. Billiet, A. Sarkar, F. E. Du Prez, M. Stefik and C. Tang, Green Chemistry, 2015, 17, 3806-3818. . Y. Coran and R. P. Patel, in Polypropylene Structure, blends and composites, ed. J. Karger-Kocsis, Springer Netherlands, 1995, ch. 6, pp. 162-201. . J. G. Drobny, in Handbook of Thermoplastic Elastomers, William Andrew Publishing, Norwich, NY, 2007, ch. 9, pp. 215-234. . K. A. Houton and A. J. Wilson, Polymer International, 2015, 64, 165-173. . Y. Nakayama, K. Aihara, H. Yamanishi, H. Fukuoka, R. Tanaka, Z. Cai and T. Shiono, Journal of Polymer Science Part A: Polymer Chemistry, 2015, 53, 489-495. . Y. Chen, A. M. Kushner, G. A. Williams and Z. Guan, Nature Chemistry, 2012, 4, 467-472. . M. R. Tant, K. A. Mauritz and G. L. Wilkes, Ionomers: synthesis, structure, properties and applications, Springer Science & Business Media, 1997 . T. Xavier, J. Samuel and T. Kurian, International Journal of Polymeric Materials and Polymeric Biomaterials, 2003, 52, 251-264. . J. Hellmann, C. Hilger and R. Stadler, Polymers for Advanced Technologies, 1994, 5, 763-774.
— Recycling, Elastomeric properties, Waste management, Rubber waste.