用电子束加速器处理添加纤维素分散体的丙烯酸乳胶漆的研制

Fernando Codelo Nascimento, P. M. Munhoz, Luiz Fernando Núbile Nascimento, W. Calvo
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引用次数: 0

摘要

油漆是大多数人所熟知的一种普遍存在的表面涂层。它是一种易于应用的产品,具有优异的耐物理和化学性能,应用范围广泛。涂料的功能是保护和美化其他属性。涂料由五种成分组成:树脂、颜料、填料、溶剂和添加剂。这项工作涉及一种特殊类型的油漆,由水性丙烯酸乳液组成,其薄膜形成是通过聚并并用于涂覆墙壁和其他表面。这项创新研究的目的是评估在电子束辐照处理的废纸组织中加入纤维素分散体对丙烯酸乳基涂料的影响。所使用的方法是在核能研究所进行的一个案例研究,包括在去离子水中加入质量浓度从0.1%到10%不等的纤维素湿巾的水分散体,并通过电子束处理,吸收剂量从5kgy到50kgy。所得结果符合Abrafati部门质量计划的参数。分析的主要样品参数为比密度,平均达到1.35 g/cm3;覆盖功率,93.55%高于规定限值(最低为90%)。在获得的其他结果中,外观、适用性和功能的改进是显著的。结论是,本研究通过纤维组织残留物的再利用,构成了丙烯酸乳液涂料领域的渐进式改进和环境可持续性
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Development of an acrylic emulsion paint added with cellulosic dispersion treated with an electron beam accelerator
Paint is a prevalent type of surface of coating well known to most peoPaint is a prevalent type of surface of coating well known to most people. It is an easy-to-apply product, with excellent physical and chemical resistance and a wide range of applications. The function of a paint is to protect and beautify amongst other properties. Paints are formed using five components: resin, pigments, fillers, solvents and additives. This work deals with a specific type of paint, composed of a water-based acrylic emulsion, whose film formation is by coalescence and used to coat walls and other surfaces. The aim of this innovative  research was to evaluate the effect of  the addition of cellulosic dispersion of waste paper tissues treated by electron beam irradiation to an acrylic emulsion-based paint. The methodology used was a case study carried out at the Nuclear and Energy Research Institute that consisted of adding aqueous dispersions of cellulosic wipes with mass concentrations varying  from 0.1% to 10% in deionized water, and treated by electron beam processing with absorbed doses from 5 kGy to 50 kGy. The results obtained followed the parameters of the Abrafati Sectorial Quality Program. The main sample parameters analyzed  were specific density, which reached an average of 1.35 g/cm3; and covering power, whose value  of 93.55% was above the specified limit (minimum of 90%). Among other results obtained, improvements in appearance, applicability and functionality were significant.  It was concluded that this research constitutes an incremental improvement to the acrylic emulsion paints segment, and environmental sustainability, through the reuse of cellulosic tissue residues
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