Glazing effect for producing environmentally friendly ceramics for cladding applications

Chemical Industry Pub Date : 2021-07-12 DOI:10.2298/hemind210112017p

A. E. Pavlycheva, S. E. Pikalov, G. Selivanov

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Abstract

This paper presents results of comparative studies of environmental safety of ceramic materials, based on a low-plasticity clay with the introduction of galvanic sludge, boric acid and titanium dioxide in 3 different combinations. The experimental samples were manufactured under 15 MPa pressing pressure and at the maximum firing temperature of 1050 oC. Prior to the toxicological experiments, diurnal extracts of the materials into the model neutral and acidic media were obtained. The toxicological safety was determined by using the Daphnia mortality method, and by comparing the maximum permissible concentrations of heavy metals for drinking and household water with the heavy metals? concentrations in diurnal extracts. The presented data show that the combined introduction of all the investigated additives results in the glazing effect of ceramic particles surfaces so that an environmentally safe material can be produced that exhibits sufficiently high-performance properties. The use of low-plastic clay and electroplating sludge expands the raw material base for producing ceramics and allows the disposal of environmentally hazardous compounds of heavy metals contained in electroplating sludge. Ceramic materials based on the developed charge composition can be used for producing items for external cladding for buildings and structures.

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用于生产包覆应用的环保陶瓷的玻璃效果

本文介绍了以低塑性粘土为研究对象，引入电污泥、硼酸和二氧化钛三种不同组合对陶瓷材料环境安全性的比较研究结果。实验样品在15 MPa的压力下，在1050℃的最高烧成温度下制备。在毒理学实验之前，将这些材料的日提取物放入模型中性和酸性介质中。毒理学安全性采用水蚤死亡率法，并通过比较饮用水和家庭用水中重金属的最大允许浓度与重金属?日萃取物的浓度。所提供的数据表明，所有所研究的添加剂的组合引入导致陶瓷颗粒表面的上釉效果，从而可以生产出具有足够高性能的环保材料。低塑性粘土和电镀污泥的使用扩大了生产陶瓷的原料基础，并允许处理电镀污泥中含有的对环境有害的重金属化合物。基于所开发的电荷组合物的陶瓷材料可用于生产建筑物和结构的外部包层物品。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Chemical Industry

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