Lime-diatomic mortar for finishing the walls of buildings

IF 1 Q4 NANOSCIENCE & NANOTECHNOLOGY
V. Loganina
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Abstract

: Introduction. At present, when performing finishing and restoration work, more and more preference is given to dry lime mixes (DBM). Wide opportunities for the production of dry lime-cement mixes are opened up by the use of diatomite, which is both a dry mix filler and an active mineral additive. Previous studies have confirmed the effectiveness of heat treatment of diatomite. After firing at 600–800 о C, activity increases when interacting with calcium oxide hydrate. This is explained by the fact that at 600–800 о C clay substances are dehydrated to metakaolinite, which is characterized by increased reactivity. The properties of dry mixtures and compositions based on them are affected by the particle size of the components of the dry mixture. In this regard, it is of great importance to study the influence of the dispersion of the components of the dry mixture on the formation of the structure of the finishing compositions. Materials and methods. To study the active centers of the diatomite surface, we used the indicator method for determining the distribution of adsorption centers. Determination of the compressive strength was carried out on a DOSM-3-1 dynamometer on samples 3x3x3 cm in size at the age of 28 days of air-dry hardening of the compositions. The determination of the granulometric composition of the components of the dry mixture was carried out by the method of sedimentation analysis. Adsorption was estimated from the optical density measured with a PEC photoelectrocalorimeter. To study adsorption at the “liquid-solid” interface, the initial components of the dry mixture, lime and diatomite, were used. Results and discussions. Accordingto the data obtained, it was found that a particle size reduction of the dry mixture filler leads to an increase in the strength characteristics of lime-diatomite compositions.It was found that the introduction of C-3 additive into the water favorsincreasing dispersion of hydrated lime, improving plasticity finishing mixture and improving the physical and mechanical characteristics lime-diatomaceous compositions.It is proposed to introduce sulfate additiveinto the formulation of the aluminum-dry mixture. Increase in the compressive strength of the finishing composition with addition of aluminum sulfate 1.5–2 times was observed. Conclusion. It has been determined that the developed dry mixture is highly competitive, in terms of technological and operational properties,withprototype. Moreover, the production of the proposed DBM is more economical due to the use of local raw materials and domestic additives.
石灰-双原子砂浆,用于粉刷建筑物的墙壁
:介绍。目前,在进行装修和修复工程时,越来越多地采用干石灰混合料(DBM)。硅藻土既是一种干混合填料,又是一种活性矿物添加剂,为生产干石灰水泥混合物开辟了广阔的机会。以往的研究证实了硅藻土热处理的有效性。在600-800°C烧制后,与氧化钙水合物相互作用时活性增加。这可以解释为,在600-800°C时,粘土物质脱水成偏高岭石,其特征是反应性增强。干混合物和基于它们的组合物的性质受到干混合物组分粒度的影响。在这方面,研究干燥混合物组分的分散对整理组合物结构形成的影响是非常重要的。材料和方法。为了研究硅藻土表面的活性中心,我们用指示剂法确定了吸附中心的分布。采用DOSM-3-1测力仪对尺寸为3x3x3 cm的组合物进行风干硬化28天后的抗压强度测定。采用沉降分析法对干燥混合物组分的粒度组成进行测定。用PEC光电量热计测量光密度,估计吸附量。为了研究在“液-固”界面的吸附,使用了干混合物的初始组分石灰和硅藻土。结果和讨论。根据所获得的数据,发现干燥混合填料的粒径减小导致石灰-硅藻土组合物的强度特性增加。研究发现,在水中引入C-3添加剂有利于水合石灰的分散,改善改性混合物的塑性,改善石灰-硅藻组成物的物理力学特性。建议在铝-干混合料配方中引入硫酸盐添加剂。结果表明,添加1.5 ~ 2倍硫酸铝可提高整理组合物的抗压强度。结论。已确定开发的干混合物在技术和操作性能方面与原型具有很强的竞争力。此外,由于使用当地原料和国内添加剂,所提出的DBM的生产更加经济。
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来源期刊
CiteScore
2.30
自引率
58.30%
发文量
37
审稿时长
8 weeks
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