CHEMICALLY RESISTANT FLAME RETARDING COATINGS BASED ON EPOXY-AMINE COMPOSITES MODIFIED WITH COPPER(II) CARBONATE

P. Pastuhov, V. Kochubei, O. Lavrenyuk, B. Mykhalichko
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引用次数: 1

Abstract

Introduction. The development of modern technologies and the elaboration of new materials facilitates the wide use of epoxy resins for instance in industries. Particular attention deserves the various fire retardant coatings making. These coatings are increasingly used to increase fire resistance of details and designs made of metals, plastics, wood in various industrial and civil constructions, and in transport. The very perspective mode producing the effective fire retardant coatings is the direct introduction into the polymeric matrix of epoxy resins of reactive fire retardant agents. Purpose. The aim of this work is to study the effect of the elaborated fire retardant on the ability of epoxy-amine composites modified with copper(II) carbonate to resist the spread of the flame, as well as the effects of water and chemicals. Metods. The flame propagation rate on the surface of horizontally located experimental samples was determined according to all-State Standard 28157-89. Water and chemical resistance were evaluated by a gravimetric method on the polymer mass film change after exposure to distilled water and corrosive media for a certain period of time. Results. The results of experimental studies have shown that samples of the epoxy-amine composites containing 20, 40 and 80 mass parts of CuCO3 per 100 mass part of the binding agent do not propagate the flame horizontally at all. At that, duration of free combustion of these polymer samples did not exceed 2 min. It has been found too that the penetrability of water and chemicals through films based on epoxy-amine composites modified with CuCO3 is reduced due to the formation of chemical bonds between copper(II) carbonate and polyethylenepolyamine. The lowest level of the equilibrium absorption in water and 10% aqueous solutions of H2SO4 and NaOH was watched for samples of those composites that contained 20 mass parts of CuCO3 per 100 mass parts of binder. Conclusion. When studying the effect of copper(II) carbonate on the flame propagation rate, it was found that the epoxy-amine composites containing >20 mass parts of CuCO3 per 100 mass parts of the binding agent, do not propagate the flame and so these are self-extinguishing. The copper(II) carbonate addition to epoxy polymers reduces their sorption capacity in water and solutions of alkalis and acids. These data are the basis to future develop the chemically resistant fire retarding coatings based on epoxy-amine composites modified with copper(II) carbonate. Keywords
碳酸铜改性环氧胺复合材料的耐化学阻燃涂料
介绍。现代技术的发展和新材料的精加工促进了环氧树脂在工业等领域的广泛应用。特别值得注意的是各种防火涂料的制作。这些涂料越来越多地用于各种工业和民用建筑以及运输中由金属,塑料,木材制成的细节和设计的耐火性。将反应性阻燃剂直接引入到环氧树脂聚合物基体中是制备有效阻燃涂料的最理想方式。目的。本工作的目的是研究精制阻燃剂对碳酸铜(II)改性环氧胺复合材料抗火焰蔓延能力的影响,以及水和化学物质的影响。看法。火焰在水平放置的实验试样表面的传播速率按照国家标准28157-89进行测定。采用重量法对聚合物在蒸馏水和腐蚀性介质中暴露一定时间后的质量膜变化进行了耐水性和耐化学性评价。结果。实验研究结果表明,每100个质量部分的结合剂中含有20、40和80个质量部分的CuCO3的环氧胺复合材料样品完全不会水平传播火焰。此时,这些聚合物样品的自由燃烧时间不超过2分钟。还发现,由于碳酸铜(II)和聚乙烯多胺之间形成化学键,水和化学物质通过以CuCO3改性的环氧胺复合材料为基础的薄膜的渗透性降低。对于每100质量份粘合剂中含有20质量份CuCO3的复合材料样品,观察了其在水和10% H2SO4和NaOH水溶液中的最低平衡吸收水平。结论。在研究碳酸铜(II)对火焰传播速率的影响时,发现每100质量份结合剂中含有>20质量份CuCO3的环氧胺复合材料不能传播火焰,因此具有自熄性。碳酸铜(II)加入到环氧聚合物中,降低了环氧聚合物在水、碱和酸溶液中的吸附能力。这些数据为今后开发以碳酸铜(II)改性环氧胺复合材料为基础的耐化学阻燃涂料奠定了基础。关键字
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