ПОРІВНЯННЯ ПОЛІОЛІВ ЯК КАРБОНІЗУЮЧИХ АГЕНТІВ ВОГНЕЗАХИСНИХ КОМПОЗИЦІЙ ІНТУМЕСЦЕНТНОГО ТИПУ

Liubov Vakhitova, Konstantin Kalafat, Nadiya Taran, V. Bessarabov
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Abstract

Purpose. To study the influence of the carbonizing agent structure on the formation of thermal insulating char layer of intumescent system acid donor/polyol and on the fire protection efficiency of the system at high temperatures. Methodology. A fire retardant mixture of an acid donor (phosphates ammonium, urea, melamine)/ polyol was chosen as a model intumescent system. Dispersion of vinyl acetate copolymer with ethylene was used as a polymeric component. The study applied the characteristics of the char layer of the intumescent composition at a certain temperature. The volumetric intumescent coefficient (K, cm3/g), mass of char residue (m, %), structure and density of the char layer are proposed as the main estimated parameters of flame retardant effect. IR spectroscopy was used to identify products of thermolysis of intumescent systems. Determination of fire protection efficiency of intumescent coatings was carried out in a mini-oven under standard fire conditions. Findings. The influence of polyol structure on the formation of thermal insulating char layer of intumescent acid donor/polyol system and the prediction of fire protection efficiency of this system under high temperature conditions has been investigated. It has been shown that under conditions of thermal shock the fire protection efficiency is more dependent on the nucleophilic reactivity of the polyol towards the unsaturated phosphorus atom of the acid donor than on its thermal stability. It has been found that pentaerythritol, dipentaerythritol, starch, dextrin, xylitol and sorbitol are the most effective carbonizing agents, regardless of the structure of the acid donor. It has been proved by infrared spectroscopy that at high temperatures as a result of the decomposition of pentaerythritol one of the reaction products is the aldehydes interacting with pentaerythritol with the formation of oligomeric compounds with a simple ether bond C-O-C. At the same time, pentaerythritol can be considered as a universal source of carbon framework for intumescent flame retardants regardless of the phosphate structure used. Originality. It has been shown that an important factor to increase the fire protection efficiency of intumescent systems is the use of polyols with an increased nucleophilicity in the esterification between polyol and phosphoric acid.Practical value. The optimal polyols as carbonizing agents for formulation of intumescent coatings with enhanced fire protection properties have been determined.
目的。研究炭化剂结构对膨胀体系酸给体/多元醇保温炭层形成及体系高温防火效率的影响。方法。以磷酸铵、尿素、三聚氰胺为供酸体/多元醇的阻燃剂为模型膨胀体系。采用醋酸乙烯共聚物分散体作为聚合物组分。研究应用了膨胀成分炭层在一定温度下的特性。提出了体积膨胀系数(K, cm3/g)、炭渣质量(m, %)、炭层结构和密度作为阻燃效果的主要估计参数。采用红外光谱法对膨胀体系的热裂解产物进行了鉴定。在标准着火条件下,在小型烘箱中测定了膨胀涂料的防火效率。发现。研究了多元醇结构对膨胀酸供体/多元醇体系保温炭层形成的影响,并对该体系在高温条件下的防火效率进行了预测。研究表明,在热冲击条件下,多元醇对酸供体不饱和磷原子的亲核反应性比其热稳定性更重要。研究发现,无论给酸体的结构如何,季戊四醇、二季戊四醇、淀粉、糊精、木糖醇和山梨醇都是最有效的碳化剂。红外光谱法证明,在高温下,季戊四醇分解的反应产物之一是醛类与季戊四醇相互作用,形成具有简单醚键C-O-C的低聚化合物。同时,季戊四醇可以被认为是膨胀型阻燃剂碳骨架的普遍来源,而不管使用的是哪种磷酸盐结构。创意。研究表明,提高膨胀体系防火效率的一个重要因素是在多元醇与磷酸之间的酯化反应中使用亲核性增强的多元醇。实用价值。确定了用于增强防火性能膨胀涂料的最佳炭化剂多元醇。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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