The Mechanical Properties of PA6/NBR/clay/CaCO3 Hybrid Nanocomposites
Subject Areas :Abouzar Haghshenas 1 , Hamzeh Shahrajabian 2
1 - Department of Mechanical Engineering, Najafabad Branch, Islamic Azad University, Najafabad, Iran
2 - Department of Mechanical Engineering, Najafabad Branch, Islamic Azad University, Najafabad, Iran
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Abstract :
[1] Coran, A.Y., Patel, R.P. and Williams, D. 1982. Rubber-thermoplastic compositions. Part v. Selecting polymers for thermoplastic vulcanizates. Rubber Chemistry and Technology. 55(1): 116-136.
[2] De, S. and Bhowmick, A.K. 1990. Thermoplastic elastomers from rubber-plastic blends. ed. Ellis Horwood,
[3] Zhang, H., Cui, Z., Wang, Y., Zhang, K., Ji, X., Lü, C., Yang, B. and Gao, M. 2003. From water‐soluble cdte nanocrystals to fluorescent nanocrystal–polymer transparent composites using polymerizable surfactants. Advanced Materials. 15(10): 777-780.
[4] Faramarzi, I. and Razzaghi-Kashani, M. 2015. Improvements in tribological properties of polyamide 6 by application of aramid pulp. Iranian Polymer Journal. 24(4): 329-335.
[5] Coran, A.Y. and Patel, R. 1980. Rubber-thermoplastic compositions. Part i. Epdm-polypropylene thermoplastic vulcanizates. Rubber Chemistry and Technology. 53(1): 141-150.
[6] Mehrabzadeh, M. and Delfan, N. 2000. Thermoplastic elastomers of butadiene‐acrylonitrile copolymer and polyamide. Vi. Dynamic crosslinking by different systems. Journal of applied polymer science. 77(9): 2057-2066.
[7] Chowdhury, R., Banerji, M. and Shivakumar, K. 2006. Development of acrylonitrile‐butadiene (nbr)/polyamide thermoplastic elastomeric compositions: Effect of carboxylation in the nbr phase. Journal of applied polymer science. 100(2): 1008-1012.
[8] Kumar, C.R., Nair, S.V., George, K., Oommen, Z. and Thomas, S. 2003. Blends of nylon/acrylonitrile butadiene rubber: Effects of blend ratio, dynamic vulcanization and reactive compatibilization on rheology and extrudate morphology. Polymer Engineering & Science. 43(9): 1555-1565.
[9] Cai, Z., Li, Y., Yang, Z. and Jiang, M. 2020. Effects of acrylonitrile content of nitrile rubber on mechanical properties of polyamide 6/nitrile rubber blends. Materials Research Express. 6(12): 125362.
[10] Garces, J.M., Moll, D.J., Bicerano, J., Fibiger, R. and McLeod, D.G. 2000. Polymeric nanocomposites for automotive applications. Advanced Materials. 12(23): 1835-1839.
[11] Katbab, A., Nazockdast, H. and Bazgir, S. 2000. Carbon black‐reinforced dynamically cured epdm/pp thermoplastic elastomers. I. Morphology, rheology, and dynamic mechanical properties. Journal of applied polymer science. 75(9): 1127-1137.
[12] Naderi, G., Lafleur, P.G. and Dubois, C. 2007. Microstructure‐properties correlations in dynamically vulcanized nanocomposite thermoplastic elastomers based on pp/epdm. Polymer Engineering & Science. 47(3): 207-217.
[13] Shahrajabian, H., Ahmadi-Brooghani, S.Y. and Ahmadi, S.J. 2013. Characterization of mechanical and thermal properties of vinyl-ester/tio 2 nanocomposites exposured to electron beam. Journal of Inorganic and Organometallic Polymers and Materials. 23(6): 1282-1288.
[14] Shahrajabian, H. and Sadeghian, F. 2019. The investigation of alumina nanoparticles’ effects on the mechanical and thermal properties of hdpe/rpet/mape blends. International Nano Letters. 9(3): 213-219.
[15] Hasegawa, N., Okamoto, H., Kato, M. and Usuki, A. 2000. Preparation and mechanical properties of polypropylene–clay hybrids based on modified polypropylene and organophilic clay. Journal of Applied Polymer Science. 78(11): 1918-1922.
[16] Mahallati, P., Arefazar, A. and Naderi, G. 2011. Thermal and morphological properties of thermoplastic elastomer nanocomposites based on pa6/nbr.):
[17] Paran, S., Naderi, G. and Ghoreishy, M. 2017. Microstructure and mechanical properties of thermoplastic elastomer nanocomposites based on pa6/nbr/hnt. Polymer Composites. 38: E451-E461.
[18] Shemshadi, R. and Naderi, G. 2018. The relationship between rheological behavior and microstructure of nanocomposite based on pa6/nbr/clay. Polymer Composites. 39(7): 2403-2410.
[19] Paran, S., Naderi, G., Ghoreishy, M. and Dubois, C. 2018. Essential work of fracture and failure mechanisms in dynamically vulcanized thermoplastic elastomer nanocomposites based on pa6/nbr/xnbr-grafted hnts. Engineering Fracture Mechanics. 200: 251-262.
[20] Nakhaei, M. and Naderi, G. 2020. Modeling and optimization of mechanical properties of pa6/nbr/graphene nanocomposite using central composite design. International Journal of Engineering. 33(9): 1803-1810.
[21] Khodabandelou, M., Aghjeh, M.K.R. and Mazidi, M.M. 2015. Fracture toughness and failure mechanisms in un-vulcanized and dynamically vulcanized pp/epdm/mwcnt blend-nanocomposites. RSC advances. 5(87): 70817-70831.
[22] Qiu, Y., Wang, J., Wu, D., Wang, Z., Zhang, M., Yao, Y. and Wei, N. 2016. Thermoplastic polyester elastomer nanocomposites filled with graphene: Mechanical and viscoelastic properties. Composites Science and Technology. 132: 108-115.
[23] Naderi, G., Razavi‐Nouri, M., Taghizadeh, E., Lafleur, P.G. and Dubois, C. 2011. Preparation of thermoplastic elastomer nanocomposites based on polyamide‐6/polyepichlorohydrin‐co‐ethylene oxide. Polymer Engineering & Science. 51(2): 278-284.
[24] Taghizadeh, E., Naderi, G. and Razavi-Nouri, M. 2011. Effects of organoclay on the mechanical properties and microstructure of pa6/eco blend. Polymer Testing. 30(3): 327-334.