MODIFICATION OF LOW-MOLECULAR COPOLYMER FROM BY-PRODUCTS OF BUTADIENE RUBBER BY SECONDARY EXPANDED POLYSTYRENE

IF 0.6 Q4 CHEMISTRY, MULTIDISCIPLINARY
N. Nikulina, G. Vostrikova, A. Dmitrenkov, S. Nikulin
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引用次数: 2

Abstract

From the literature data it is known that in industrial and civil construction it is widely used expanded polystyrene as a heat-insulating material, which is in demand on the market. In order to solve a number of ecological problems, in this work attempts have been made to chemically combine two types of polymer waste (by-products of petrochemistry in the presence of expanded polystyrene) to obtain impregnating compounds at the molecular level by carrying out their joint destruction and applying wood products for protective treatment. Obtained wood-polymer composites from natural wood (birch) and wood fiber boards (DVP) were investigated for resistance to water and moisture. Indicators of tests of wood for water absorption and swelling in the radial and tangential directions indicate that the samples under investigation have increased hydrophobic properties. Modified fiberboards acquire, in addition to increased hydrophobic properties and higher strength parameters. This is due to the cross-linking of oligomer molecules in wood structures with the formation of a wood-polymer framework and the formation of hydrogen and ether bonds between the wood components and the oxidized modified oligomer. The formation of such bonds makes it possible to reduce such a shortage of impregnating compositions as washability from products during their operation. Reducing the uncertainty of the oligomeric modifier reduces its hydrophilic properties. Integrated use of waste and by-products allows to purposefully dispose of them and use them for protective processing of materials, which include wood components, which contributes to the increase of the service life of products.
二次膨胀聚苯乙烯改性丁二烯橡胶副产物低分子共聚物
从文献资料可知,在工业和民用建筑中,膨胀聚苯乙烯作为一种隔热材料被广泛使用,市场需求量很大。为了解决一些生态问题,在这项工作中,我们尝试将两种类型的聚合物废物(存在膨胀聚苯乙烯的石化副产品)进行化学结合,通过进行它们的联合破坏和应用木制品进行保护处理,在分子水平上获得浸渍化合物。研究了天然木材(桦木)和木纤维板(DVP)制备的木聚合物复合材料的耐水性和防潮性能。木材在径向和切向上的吸水和膨胀试验指标表明,所调查的样品具有增强的疏水性。改性纤维板获得,除了增加疏水性和更高的强度参数。这是由于木材结构中的低聚物分子与木材聚合物框架的形成交联以及木材组分与氧化修饰的低聚物之间的氢键和醚键的形成。这种键的形成可以减少浸渍成分的短缺,如产品在操作过程中的可水洗性。降低低聚改性剂的不确定度会降低其亲水性。废物和副产品的综合利用可以有目的地处理它们,并将它们用于材料的保护性加工,其中包括木材组件,这有助于增加产品的使用寿命。
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来源期刊
CiteScore
1.40
自引率
44.40%
发文量
83
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