Trifenil Fosfatın Polimer Malzemelerin Yanmazlık Özelliği Üzerine Sinerjik Etkisi

Akdoğan, E.,Erdem, M., Ureyen, M.E.,Kaya, M. 2020. Rigid polyurethane foams with halogen-free flame retardants: Thermal insulation, mechanical, and flame retardant properties. Journal of Applied Polymer Science, 137(1): 47611.

Bayel, D.K. 2018. Alev geciktirici mineral dolgu maddeleri. Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi, 7(3):1175-1179.

Beach, M.W., Rondan, N.G., Froese, R.D., Gerhart, B.B., Green, J.G., Stobby, B.G., Shmakov, A.G., Shvartsberg, V.M., Korobeinichev, O.P. 2008. Studies of degradation enhancement of polystyrene by flame retardant additives. Polymer Degradation and Stability, 93(9): 1664-1673.

Brunelle, D.J. 2006. Polycarbonates. 4.baskı. Encyclopedia of Polymer Science and Technology.

Dasari, A., Yu, Z.-Z.Cai, G.-P., Mai, Y.-W. 2013. Recent developments in the fire retardancy of polymeric materials. Progress in Polymer Science, 38:1357-1387.

Despinasse, M.-C.,Schartel, B. 2013. Aryl phosphate–aryl phosphate synergy in flame-retarded bisphenol A polycarbonate/acrylonitrile-buta diene-styrene. Thermochimica Acta,563:51-61.

Feyz, E.,Y., Esfandeh, M. 2010. Comparison of the effect of an organoclay, triphenyl phosphate, and a mixture of both on the degradation and combustion behaviour of PC/ABS blends. Macromoleculer Symposia, 298(1):130-137.

Gonchikzhapov, M.B., Paletskya, A.A., Kuibida, L.V., Shundrinac, I. K., Korobeinichev, O.P. 2012. Reducing the flammability of ultra-high-molecular-weight polyethylene by triphenyl phosphate additives combustion. Explosion, and Shock Waves, 48(5):579-589.

Green, J. 1992. A review of phosphorus-containing flameretardants. Fire Science,10:470-487.

Hazer, S., Coban, M., Aytac, A. 2019. Effects of ammonium polyphosphate and triphenyl phosphate on the flame retardancy, thermal, and mechanical properties of glass fiber-reinforced PLA/PC composites. Fireand Materials, 43:277-282.

Hoang, C.N., Pham, C.T., Dang, T.M., Hoang, D.Q., Lee, P.-C.,Kang, S.-J.,Kim, J. 2019. Novel oligo-ester-ether-diol prepared by waste poly (ethylene terephthalate) glycolysis and its use in preparing thermally stable and flame retardant polyurethane foam. Polymer,11:236.

Hoang, D.Q., Kim, J. 2013. Flame retardation performances of novel aryl cyclic phosphorus flame retardants when applied to highly flammable polymers. Macromolecular Research, 21(2): 184-193.

Hou, S., Li, Z., Zhang, Y.J., Jiang, P. 2021. PC/ABS karışımları için alev geciktirici, mekanik güçlendirme ve hidrolitik direnç üzerinde fosfor-fosfor sinerjik etkisi. Polimer Bozunması ve Kararlılığı,183:109442.

Khattar, N., Sharma, P., Berar, U., Diwan, P.K. 2022. Study of thermal decomposition parameters of UHMWPE sheet. Materialstoday: Proceeding, 62(10). 6091-6094.

Kim, J., Lee, K., Lee, K., Bae, J., Yang, J., Hong, S. 2003. Studies on the thermal stabilization enhancement of ABS; synergistic effect of triphenyl phosphate nanocomposite, epoxy resin, and silane coupling agent mixtures. Polymer Degradation and Stability,79(2): 201-207.

Korobeinichev, O.P., Gonchikzhapov, M.B., Paletsky, A.A., Tereshchenko, A.G., Shundrina, I.K., Kuibida, L.V., Shmakov, A.G., Hu, Y. 2016. Counterflow flames of ultrahigh-molecular-weight polyethylene with and without triphenylphosphate. Combustion and Flame, 169: 261-271.

Korobeinichev, O.P, Gonchikzhapov, M.B., Paletsky, A.A., Tereshchenko, A.G., Shmakov, A.G., Gerasimov, I.E., Knyazkov, D.A. 2017. Structure of counterflow flame of ultrahigh-molecular-weight polyethylene with and without triphenylphosphate. Proceedings of the Combustion Institute, 36(2): 3279-3286.

Laoutid, L., Bonnaud, L., Alexandre, M., Lopez-Cuesta, J.-M.,Dubois, P. 2009. New prospects in flame retardant polymermaterials: from fundamentals to nanocomposites. Material Science Enginering Research, 63:100-125.

Lee, K., Kim, J., Bae, J., Yang, J., Hong, S., Kim, H.-K. 2002. Studies on the thermal stabilization enhancement of ABS; synergistic effect by triphenyl phosphate and epoxy resin mixtures. Polymer”,43(8): 2249-2253.

Levchik, S.V., Weil, E.D. 2004. Thermal decomposition, combustion and fire-retardancy of polyurethanes-A review of the recent literatüre. Polymer International, 53(11):1585-1610.

Li, J., Liu, Y., Wang, Q. 2013. Flame-retarded high density polyethylene with an intumescent flame retardant synthesized in a phosphorus-containing solvent. Polymer-Plastic Technology and Engineering, 52(1):38-44.

Pawlowski, K.H., Scharte, B. 2007. Flame retardancy mechanisms of triphenyl phosphate, resorcinol bis(diphenyl phosphate) and bisphenol A bis(diphenyl phosphate) in polycarbonate/ acrylonitrile-butadiene-styrene blends. Polym International, 56:1404-1414.

Niroumand, J.S., Peighambardoust, S. J., Shenavar, A. 2014. Preparation of phosphorous flame retardant polystyrene nanocomposites with flammability and thermal stability properties”,11th International Seminar on Polymer Science and Technology, Tehran, 6-9 October, Iran.

Nguyen, T.N., Trinh, H.T., Sam, L.H., Nguyen, T.Q., Le, G.T. 2020. Halogen-free flame-retardant flexible polyurethane for textile coating: Preparation and characterisation. Fire and Materials, 44(2):269-282.

Pogorelčnik, B., Pulko, I., Wilhelm, T., Žigon, M. 2020. Influence of phosphorous-based flame retardants on the mechanical and thermal, properties of recycled PC/ABS copolymer blends. Journal of Applied Polymer Science, 137(7): 48377.

Polli, H., Pontes, L.A.M., Araujo, A. S., Barros, J.M.F., Jr, V.J.F. 2009. Degradation behavior and kinetic study of ABS polymer. Journal of Thermal Analysis and Calorimetry, 95(1): 131-134.

Thirumal, M., Singha, N.K., Khastgir, D., Manjunath, B.S., Naik, Y.P. 2010. Halogen-free flame-retardant rigid polyurethane foams: Effect of alumina trihydrate and triphenylphosphate on the properties of polyurethane foams. Journal of Applied Polymer Science, 116(4):2260-2268.

Yıldırım, S., Çelik, E. 2014. Alev geciktirici huntit ve hidromanyezit nanopartikül takviyeli polimerik kompozit kaplamalar. Afyon Kocatepe Üniversitesi Fen ve Mühendislik Bilimleri Dergisi, 14, OZ5762: 387-393.

Zhang,Y., Zheng, X., Wei, L., Sun, R., Guo, H., Liu, X., Liu, S., Li, Y., Mai, B. 2018. The distribution and accumulation of phosphate flame retardants (PFRs) in water environment. Science of the Total Environment, 630:164-170.

Zhang, C., Yang, R., Li, X., Yi, D. 2016. Preparation of polystyrene /triphenyl phosphate composites by suspension polymerization and melt extrusion method:A comparative study chinese. Journal of Polymer Science, 34( 6): 688-696.

Zhang, C., Li, X., Yang, R.,Lan, Y. 2016. Effects of triphenyl phosphate on styrene suspension polymerization process and flame retardance properties of polystyrene/triphenyl phosphate nanocomposite. Colloid Polymer Science, 294:1153-1163.

Zheng, X., Wang, G., Xu, W. 2014. Roles of organically-modified montmorillonite and phosphorous flame retardant during the combustion of rigid polyurethane foam. Polymer Degradation and Stability,101:32-39.

Zhou, K.Q., Jiang, S.H., Shi, Y.Q., Liu, J.J., Wang, B., Hu, Y., Gui, Z. 2014. Multigram-scale fabrication of organic modified MoS2 nanosheets dispersed in polystyrene with improved thermal stability, fire resistance, and smoke suppression properties. RSC Advances, 4:40170.

Wang,G., Li,W., Bai,S.,Wang, Q. 2019. Synergistic effects of flame retardants on the flammability and foamability of PS foams prepared by supercritical carbon dioxide foaming. ACS Omega, 4:9306-9315

Wei, P.,Tian, G.,Yu, H.,Qian, Y. 2013. Yeni bir organik-inorganik hibrit mezogözenekli silika sentezi ve PC/ABS'de alev geciktirici uygulaması. Polimer Bozunması ve Kararlılığı, 98(5):1022-1029.