Synthesis and Application of Arylaminophosphazene as a Flame Retardant and Catalyst for the Polymerization of Benzoxazines

A novel type of phosphazene containing an additive that acts both as a catalyst and as a flame retardant for benzoxazine binders is presented in this study. The synthesis of a derivative of hexachlorocyclotriphosphazene (HCP) and meta-toluidine was carried out in the medium of the latter, which made...

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Autores principales: Bornosuz, Natalia V., Gorbunova, Irina Yu., Kireev, Vyacheslav V., Bilichenko, Yulya V., Chursova, Larisa V., Svistunov, Yuri S., Onuchin, Denis V., Shutov, Vyacheslav V., Petrakova, Viktoria V., Kolenchenko, Alexander A., Nguyen, Duong T., Pavlov, Nikolay V., Orlov, Alexey V., Grebeneva, Tatyana A., Sirotin, Igor S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7830697/
https://www.ncbi.nlm.nih.gov/pubmed/33466828
http://dx.doi.org/10.3390/polym13020263
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author Bornosuz, Natalia V.
Gorbunova, Irina Yu.
Kireev, Vyacheslav V.
Bilichenko, Yulya V.
Chursova, Larisa V.
Svistunov, Yuri S.
Onuchin, Denis V.
Shutov, Vyacheslav V.
Petrakova, Viktoria V.
Kolenchenko, Alexander A.
Nguyen, Duong T.
Pavlov, Nikolay V.
Orlov, Alexey V.
Grebeneva, Tatyana A.
Sirotin, Igor S.
author_facet Bornosuz, Natalia V.
Gorbunova, Irina Yu.
Kireev, Vyacheslav V.
Bilichenko, Yulya V.
Chursova, Larisa V.
Svistunov, Yuri S.
Onuchin, Denis V.
Shutov, Vyacheslav V.
Petrakova, Viktoria V.
Kolenchenko, Alexander A.
Nguyen, Duong T.
Pavlov, Nikolay V.
Orlov, Alexey V.
Grebeneva, Tatyana A.
Sirotin, Igor S.
author_sort Bornosuz, Natalia V.
collection PubMed
description A novel type of phosphazene containing an additive that acts both as a catalyst and as a flame retardant for benzoxazine binders is presented in this study. The synthesis of a derivative of hexachlorocyclotriphosphazene (HCP) and meta-toluidine was carried out in the medium of the latter, which made it possible to achieve the complete substitution of chlorine atoms in the initial HCP. Thermal and flammability characteristics of modified compositions were investigated. The modifier catalyzes the process of curing and shifts the beginning of reaction from 222.0 °C for pure benzoxazine to 205.9 °C for composition with 10 phr of modifier. The additive decreases the glass transition temperature of compositions. Achievement of the highest category of flame resistance (V-0 in accordance with UL-94) is ensured both by increasing the content of phenyl residues in the composition and by the synergistic effect of phosphorus and nitrogen. A brief study of the curing kinetics disclosed the complex nature of the reaction. An accurate two-step model is obtained using the extended Prout–Tompkins equation for both steps.
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spelling pubmed-78306972021-01-26 Synthesis and Application of Arylaminophosphazene as a Flame Retardant and Catalyst for the Polymerization of Benzoxazines Bornosuz, Natalia V. Gorbunova, Irina Yu. Kireev, Vyacheslav V. Bilichenko, Yulya V. Chursova, Larisa V. Svistunov, Yuri S. Onuchin, Denis V. Shutov, Vyacheslav V. Petrakova, Viktoria V. Kolenchenko, Alexander A. Nguyen, Duong T. Pavlov, Nikolay V. Orlov, Alexey V. Grebeneva, Tatyana A. Sirotin, Igor S. Polymers (Basel) Article A novel type of phosphazene containing an additive that acts both as a catalyst and as a flame retardant for benzoxazine binders is presented in this study. The synthesis of a derivative of hexachlorocyclotriphosphazene (HCP) and meta-toluidine was carried out in the medium of the latter, which made it possible to achieve the complete substitution of chlorine atoms in the initial HCP. Thermal and flammability characteristics of modified compositions were investigated. The modifier catalyzes the process of curing and shifts the beginning of reaction from 222.0 °C for pure benzoxazine to 205.9 °C for composition with 10 phr of modifier. The additive decreases the glass transition temperature of compositions. Achievement of the highest category of flame resistance (V-0 in accordance with UL-94) is ensured both by increasing the content of phenyl residues in the composition and by the synergistic effect of phosphorus and nitrogen. A brief study of the curing kinetics disclosed the complex nature of the reaction. An accurate two-step model is obtained using the extended Prout–Tompkins equation for both steps. MDPI 2021-01-14 /pmc/articles/PMC7830697/ /pubmed/33466828 http://dx.doi.org/10.3390/polym13020263 Text en © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Bornosuz, Natalia V.
Gorbunova, Irina Yu.
Kireev, Vyacheslav V.
Bilichenko, Yulya V.
Chursova, Larisa V.
Svistunov, Yuri S.
Onuchin, Denis V.
Shutov, Vyacheslav V.
Petrakova, Viktoria V.
Kolenchenko, Alexander A.
Nguyen, Duong T.
Pavlov, Nikolay V.
Orlov, Alexey V.
Grebeneva, Tatyana A.
Sirotin, Igor S.
Synthesis and Application of Arylaminophosphazene as a Flame Retardant and Catalyst for the Polymerization of Benzoxazines
title Synthesis and Application of Arylaminophosphazene as a Flame Retardant and Catalyst for the Polymerization of Benzoxazines
title_full Synthesis and Application of Arylaminophosphazene as a Flame Retardant and Catalyst for the Polymerization of Benzoxazines
title_fullStr Synthesis and Application of Arylaminophosphazene as a Flame Retardant and Catalyst for the Polymerization of Benzoxazines
title_full_unstemmed Synthesis and Application of Arylaminophosphazene as a Flame Retardant and Catalyst for the Polymerization of Benzoxazines
title_short Synthesis and Application of Arylaminophosphazene as a Flame Retardant and Catalyst for the Polymerization of Benzoxazines
title_sort synthesis and application of arylaminophosphazene as a flame retardant and catalyst for the polymerization of benzoxazines
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7830697/
https://www.ncbi.nlm.nih.gov/pubmed/33466828
http://dx.doi.org/10.3390/polym13020263
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