Hybrid composite material consists rubber matrix reinforced by polymer waste stripes is introduced in this study. Hardness and adhesion of Acry-lonitrile Butadiene Rubber-Polyethylene Terephthalate (PET) waste com-posite have been investigated. The study included the relationship between these properties and the percentage of PET’sadditives (0 - 100 pphr) as a reinforcement material. The obtained results show that the rubber reinforced by PET waste is refining the Hybrid composite properties from engineering and economic aspect. With only 80 pphr of PET waste additives, the rubber hardness improved by 28% and its adhesion improved by 18%.
Cite this paper
Al-Mosawi, A. I. , Hashim, A. A. and Al-Maamori, M. H. (2019). Production of High Performance Mountings by Using Rubber-Polymer Waste. Open Access Library Journal, 6, e5368. doi: http://dx.doi.org/10.4236/oalib.1105368.
Al-Mosawi, A.I., Abdulsada, S.A. and Rijab, M.A. (2017) Recycling Procedure of Plant Waste for Manufacturing Green Composite Material. International Journal of Engineering Technology, Management and Applied Sciences, 5, 211-214.
Bolden, J., Abu-Lebdeh, T. and Fini, E. (2013) Utilization of Recycled and Waste Materials in Various Construction Applications. American Journal of Environmental Science, 9, 14-24. https://doi.org/10.3844/ajessp.2013.14.24
Abdulsada, S.A. and Al-Mosawi, A.I. (2015) Tensile Strength of a New Recyclable and Environment Friendly Composite Material. Ciência e Técnica Vitivinícola, 30, 32-40.
Al-Salem, S.M., Lettieri, P. and Baeyens, J. (2009) Recycling and Recovery Routes of Plastic Solid Waste (PSW): A Review. Waste Management, 29, 2625-2643. https://doi.org/10.1016/j.wasman.2009.06.004
Rijab, M.A., Al-Mosawi, A.I. and Abdulsada, S.A. (2015) Recycling of Aluminum Solid Waste in Diyala Company for Electrical Industries. International Journal of Innovative Research and Creative Technology, 1, 44-47.
Al-Mosawi, A.I., Ali, M.M. and Abdulsada, S.A. (2015) Theoretical Approach to Tensile Strength of Composite Material Reinforced by Recycled Cellulose Fibers. Fire Journal of Engineering and Technology, 1, 42-45.
Al-Mosawi, A.I. and Abdulsada, S.A. (2018) Technological Procedure for Recycling of Pet Waste for Sustainable Environment Concept Achievement. Open Access Library Journal, 5, e4327. https://doi.org/10.4236/oalib.1104327
Worrell, E. and Reuter, M.A. (2014) Handbook of Recycling, 1st Edition, Elsevier, Amsterdam, Netherlands. https://doi.org/10.1016/B978-0-12-396459-5.00001-5
Malik, N., Kumar, P., Shrivastava, S. and Ghosh, S.B. (2017) An Overview on PET Waste Recycling for Application in Packaging. International Journal of Plastics Technology, 21, 1-24.
Sun, C.-H., Chen, X.-P., Zhuo, Q. and Zhou, T. (2018) Recycling and Depolymerization of Waste Polyethylene Terephthalate Bottles by Alcohol Alkali Hydrolysis. Journal of Central South University, 25, 543-549. https://doi.org/10.1007/s11771-018-3759-y
López-Fonseca, R., Duque-Ingunza, I., De Rivas, B., Arnaiz, S. and Gutiérrez-Ortiz, J.I. (2010) Chemical Recycling of Post-Consumer PET Wastes by Glycolysis in the Presence of Metal Salts. Polymer Degradation and Stability, 95, 1022-1028. https://doi.org/10.1016/j.polymdegradstab.2010.03.007
Al-Maamori, M.H., Al-Mosawi, A.I. and Abed, M.A. (2015) Design and Manufacture of Road Bumps Using Waste of Polyethylene Terephthalate Bottles (PET). Patent No. 4244.
Ashter, S.A. (2014) Thermoforming of Single and Multilayer Laminates: Plastic Films Technologies, Testing, and Applications. 1st Edition, William Andrew publishing, Elsevier, Amsterdam, Netherlands.