FEATURES OF THE COPPER(II) CARBONATE INFLUENCE ON AN INFLAMMABILITY OF EPOXY-AMINE COMPOSITES

P. Pastuhov, O. Lavrenyuk, B. Mykhalitchko, V. Petrovskii
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Abstract

Introduction. Inflammation susceptibility and the nature of combustion are one of the most important characteristics for the parametrization of the fire hazard of polymer materials. Because ignition is the occurrence process of the persistent flame near the surface of the material, which is preceded by the process of propagation of the flame front on its surface, the predisposition to ignition of the polymer materials plays an important role in the aspect of initiation of fires. A comparative evaluation of inflammation susceptibility of substances of different nature was carried out basing the determination of the ignition point and self-ignition point. Purpose. The work aims to determine the peculiarities of the influence of copper(II) carbonate on the increase of ignition point and self-ignition point of epoxy-amine composites. Metods. The experimental determination of the ignition point and self-ignition point was carried out according to all-Union State Standard 12.1.044-89 (4.7, 4.9 items). Toward this end, three samples of the test material were prepared with a weight of 3 g. Before testing, samples were conditioned in air. Results. Data on the effect of copper(II) carbonate on the value of ignition point and self-ignition point of the epoxy-amine composites indicate that the epoxy-amine-based composite, cured by the traditional amine hardener (PEPA), has lowest temperature of the ignition  and self-ignition. The temperture values of ignition and self-ignition increase as the content of copper(II) carbonate increases in the composite, measuring up a maximum value at 80 g of CuCO3 per 100 g of binder. It is proved that the reason for the increase of the ignition temperature and self-ignition temperature of the modified epoxy-amine composites is the appearance of strong coordination bonds that are formed due to the chemical binding of the combustible polyethylenepolyamine with the non-combustible inorganic salt (with copper(II) carbonate). The measured values of the ignition point and self-ignition point of the amine hardener (PEPA) of the epoxy-diane oligomer indicate that it is able to ignite at temperature 136ºC, and self-ignite at temperature 393ºС. After forming the chelate complex, the coordinated PEPA turns into a practically non-combustible substance. Conclusion. Consequently, the main factor that affects to make difficulty of ignition of organic nitrogen-containing substances is the efficient chemical binding N atoms of the combustible amine molecules with d-metal atom of the non-combustible inorganic salt, which is accompanied by the formation of sufficiently strong coordination bonds of the Cu(ІІ)¬N type. The resistance to ignition of the modified polymeric composites will depend on the binding strength of the copper(II) salt with an amine hardener. The mechanism of the fire retardant influence of the d-metal salts on combustion of the epoxy-amine-based composites consists in this. So, copper(II) compounds, in particular copper(II) carbonate, can successfully be used as the fire retardant additives enabling of efficiently lowering the fire hazard of synthetic polymers based on epoxy-amine composites.
碳酸铜(ii)对环氧胺复合材料可燃性影响的特征
介绍。炎症敏感性和燃烧性质是高分子材料火灾危险参数化的重要特征之一。由于高分子材料的着火是材料表面附近持续火焰的发生过程,在此过程之前,火焰锋在材料表面上的传播过程,因此高分子材料的着火倾向在火灾的起爆方面起着重要的作用。在确定着火点和自燃点的基础上,对不同性质物质的炎症易感性进行比较评价。目的。研究了碳酸铜对环氧胺复合材料的燃点和自燃点升高影响的特殊性。看法。点火点和自燃点的实验确定按照全欧国家标准12.1.044-89(4.7,4.9项)进行。为此,制备了三个重量为3g的测试材料样品。在测试之前,样品在空气中进行调节。结果。碳酸铜(II)对环氧胺基复合材料的着火点和自燃点的影响数据表明,采用传统胺固化剂(PEPA)固化的环氧胺基复合材料具有最低的着火和自燃温度。随着复合材料中碳酸铜(II)含量的增加,着火温度值和自燃温度值均增加,在每100 g粘结剂中CuCO3含量为80 g时达到最大值。结果表明,改性环氧胺复合材料的着火温度和自燃温度升高的原因是可燃聚乙烯多胺与不可燃无机盐(含碳酸铜)发生化学结合,形成了强配位键。环氧-diane低聚物胺固化剂(PEPA)的着火点和自燃点的测量值表明,PEPA在温度136℃时能着火,在温度393℃时能自燃С。在形成螯合物后,配位的PEPA变成了一种几乎不可燃的物质。结论。因此,影响有机含氮物质难以着火的主要因素是可燃胺分子的N原子与不可燃无机盐的d-金属原子的有效化学结合,并伴随形成足够强的Cu(ІІ) - N型配位键。改性聚合物复合材料的耐燃性将取决于铜(II)盐与胺固化剂的结合强度。d-金属盐对环氧胺基复合材料的阻燃作用机理在于此。因此,铜(II)化合物,特别是碳酸铜(II)可以成功地用作阻燃添加剂,从而有效地降低环氧胺复合材料合成聚合物的火灾危险性。
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