Resumo A indústria de cerâmica vermelha brasileira consome 10,3 bilhões de toneladas de argila ao mês para produção de telhas e blocos. Uma alternativa para tornar o setor mais sustentável ambientalmente é a incorporação de resíduos na massa argilosa. Na própria olaria são gerados resíduos, tal como, o resíduo de massa cerâmica crua originado na etapa de conformação das peças. Este trabalho visa caracterizar o resíduo de massa cerâmica crua para incorporação na massa argilosa usada em cerâmica vermelha. O resíduo de massa cerâmica crua foi caracterizado através de ensaios de FRX, DRX, calorimetria exploratória diferencial e termogravimetria, limites de Atterberg e distribuição de tamanho de partículas. Corpos de prova foram conformados, secos à 110ºC e queimados à 900ºC em forno industrial e foram submetidos a ensaios de absorção de água, porosidade aparente, massa específica aparente e resistência à flexão. Os resultados evidenciam que as propriedades cerâmicas avaliadas nos corpos de prova atendem aos valores das argilas-padrão brasileiras para uso em cerâmica vermelha. Palavras-chave: Resíduo de massa cerâmica crua; Cerâmica vermelha; Caracterização; Resíduo. CHARACTERIZATION OF RAW CERAMIC MASS WASTE FOR USE IN STRUCTURAL CERAMIC Abstract The Brazilian structural ceramic industry consumes 10.3 billion tons of clay per month for production of roof tiles and blocks. An alternative to make the sector more environmentally sustainable is the incorporation of waste in the clayey mass. Wastes, such as the raw ceramic mass waste originated in the pieces conformation stage, are generated in the pottery itself. This paper aims to characterize the raw ceramic mass waste for incorporation in the clayey mass used in structural ceramic. The raw ceramic mass waste was tested for XRF, XRD, differential scanning calorimetry and thermogravimetry, Atterberg limits and particle size distribution. Specimens were conformed, dried at 110°C and burned at 900°C in the industrial furnace and, after that, tested for water absorption, apparent porosity, apparent specific mass and flexural strength. The results show that the ceramic properties evaluated in the specimens meet the requirements of the Brazilian standard clays for structural ceramics.
Brazil is one of the largest producers of ornamental stones in the world. The state of Espírito Santo has considerable social and economic relevance in the production of ornamental stones, particularly in exportation and the jobs that are directly related to this industry. The objectives of this work were to evaluate the effect of the incorporation of ornamental stone waste on the physical and mechanical properties of red ceramic manufactured using clays and waste from the state of Espírito Santo, and to collaborate to regulate the use of this ornamental stone waste in the ceramic industry when manufacturing products. Ornamental stone wastes were incorporated into the ceramic mass in the following proportions: 0, 10, 20, 30, 40 and 50% by weight. In the elaborated compositions, specimens were prepared by extrusion and were fired at 1050 °C and 1100 °C. After firing, the physical and mechanical properties of the material were analyzed using density, water absorption, porosity, linear shrinkage and mechanical strength. The results indicated an improvement in the properties of the ceramics with the addition of the waste by mass for the two temperatures. Therefore, the lower temperature (1050 °C) can be used to sinter the materials produced whilst obtaining satisfactory results and saving electrical energy. Ornamental stone waste has very promising applications in the ceramic industry.
The ornamental stone industry is growing and has a large production in Brazil, mainly in Espírito Santo, where the largest production in the country is concentrated. Brazil is part of the group of countries that produce the most ornamental stones in the world; however, the generation of waste in this sector is very large. These ornamental stone wastes when used for the manufacture of new materials, such as red ceramics, contribute to the reduction in the raw material clay and to the reduction in the environmental impact. The objective of this work was to incorporate fine wastes from the processing of ornamental stones called FIBRO in red ceramics and later, to contribute to the standardization of the use of these wastes in the ceramic industry, contributing to the manufacture of more economical and sustainable products. Wastes were incorporated in the proportion of 0 to 50% by mass that were prepared by extrusion and fired at 900 °C, 950 °C, and 1000 °C. After firing, the physical and mechanical properties of the ceramic material were evaluated. Specific mass apparent, water absorption, porosity, and flexural strength by three points tests were carried out. The results showed that from 30% at the lowest temperature, tile is already fabricated within the values stipulated by the standards, thus saving energy. The analyzed waste is a material with excellent chemical characteristics to be used in the ceramic mass, in addition to having improved the technological properties of the material, such as less water absorption and greater flexural strength.
The fabrication of conventional red clay ceramics products for civil construction, such as bricks and roofing tiles, normally uses other raw materials like sand, in addition to clay, as a way to condition the final ceramic properties. Quartzite residues, from ornamental stone processing in the northeast region of Brazil, could be used as possible conditioner material for clay body in a ceramic industry owing to its similar characteristics to common sand. In the present work, complementing a recent publication on the same materials, a quartzite residue was characterized and its potential as a red clay ceramic addition was evaluated for different composition up to 40 wt%. The results indicated economical advantages in association with some technical benefits.
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