Comparison of Three Manufacturing Techniques for Sustainable Porous Clay Ceramics

Andreola, F.; Lancellotti, Isabella; Sergi, Rachele; Cannillo, Valeria; Barbieri, Luisa

doi:10.3390/ma14010167

Cited by 7 publications

(5 citation statements)

References 26 publications

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“…Pelleting is a form of aggregation that allows the particle size to increase. In the pharmaceutical, food and fertilizer industries, it is used to transform hundreds of compounds from fine powders into manageable particles [19]. As a result, it is strong enough to handle and withstand the special application of sintered raw materials during firing, but still provides nutrients when needed.…”

Section: Manufacturing Methods By Firing Processmentioning

confidence: 99%

The characteristics and production method between glazed and unglazed of ceramic and porcelain tiles by firing process: A review

Izam

Itam

Beddu

et al. 2023

IOP Conf. Ser.: Earth Environ. Sci.

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This paper reviews the difference between glazed and unglazed ceramic and porcelain tiles, other than the fact that glazed tiles undergo an additional phase in the firing process. Both tiles are made of clay and burned in a kiln, but porcelain is a particular sort of ceramic. Porcelain clays have a greater density and are burnt at a higher temperature for a longer period time than ceramic clays. This makes it denser and more durable than ceramic tile. The variation in components and production process results in tiles with distinct properties. Although glazed ceramic and porcelain tiles are a little less robust in terms of density and thickness than their unglazed counterpart, they allow for a wider range of styles and colours. Some varieties of glazed tile are fired at higher temperatures than others, and therefore are harder as well. Unglazed tiles are denser and thicker than glazed tiles due to their unfinished appearance. In addition to safety, ceramic and unglazed ceramic tiles are scratch resistant. Because they have the colour of the mineral deposits from which the clay was originally mined, these tiles have a natural aesthetic. The major difference between ceramic and porcelain tiles is how it’s made. In conclusion, porcelain tiles are superior to ceramic tiles based on these reviews.

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Section: Manufacturing Methods By Firing Processmentioning

confidence: 99%

The characteristics and production method between glazed and unglazed of ceramic and porcelain tiles by firing process: A review

Izam

Itam

Beddu

et al. 2023

IOP Conf. Ser.: Earth Environ. Sci.

View full text Add to dashboard Cite

show abstract

“…Table II summarizes the properties of some porous ceramic materials that were obtained from the use of organic waste as porogenic agents. The data reveal that ceramic bodies with a high level of porosity, low thermal conductivity, and satisfactory mechanical strength can be obtained from waste such as rice husks [12], banana leaves [13], olive stones [14], wheat straw [14], yeast [15] and coffee waste [16,72]. Additionally, it is observed that the most porous ceramic materials produced using organic waste in their composition are applied in the civil construction industry, such as porous clay bricks and foams for thermal and/or acoustic insulation.…”

Section: Organic Wastementioning

confidence: 99%

A review on the production of porous ceramics using organic and inorganic industrial waste

et al. 2022

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The use of industrial waste in compositions of ceramic masses has attracted great interest from the scientific community, as they can be considered abundant and diversified alternative sources of raw materials. At the same time, there is a growing interest in the development of porous ceramics due to their wide possibilities for use in various fields of engineering. In this sense, the present work aimed to provide a literature review on the use of industrial waste as alternative raw materials in the production of porous ceramics, highlighting the innovations and technological potential of research carried out in recent years. Increasingly higher levels of industrial waste in ceramic formulations have been studied, as well as high-performance porous ceramic bodies obtained entirely from waste materials. In addition to promoting the diversification of products, the incorporation of waste in ceramic masses represents an alternative to minimize their negative effects on the environment.

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“…Different processing techniques of cellular ceramics include gel casting, replication of a sacrificial foam template, direct foaming of a liquid slurry, burn-out of fugitive pore formers, among others [11,12]. Andreola et al [13] experimented three different manufacturing techniques of porous ceramics and concluded that one technique can be preferable as compared to the others depending on the specific use. The pore-former technique is based on the mixing of the ceramic powder, or its precursors, with a fugitive material that acts as a poreforming agent, followed by the formation of a green body, extraction of the pore-former, and sintering of the ceramic phase [14].…”

Section: Evaluating the Properties Of Cellular Ceramics Prepared With A Granite Dust And Plantain (Musa Paradisiaca) Peel Powder For Extementioning

confidence: 99%

Evaluating the properties of cellular ceramics prepared with a granite dust and plantain (Musa paradisiaca) peel powder for external wall thermal insulation of buildings

Odewole

2021

Cerâmica

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The viability of preparing cellular ceramics suitable for external wall insulation of buildings was investigated using granite dust, ball clay, plantain peels, sodium silicate, and sodium hydroxide. The predetermined compositions of the raw materials were mixed homogeneously and then subjected to uniaxial pressing at 10 MPa. The formulated samples were oven-dried and sintered in a gas kiln at 850 °C for 3 h. The obtained cellular ceramics were then subjected to standard property tests. The results revealed water absorption of 19.5-41.7%, bulk density of 1.39-1.86 g/cm 3 , apparent porosity of 36.4-66.7%, thermal conductivity of 0.09-0.62 W/(m.K), and compressive strength of 0.9-18.4 MPa. From the results, the optimum sample of the cellular ceramics prepared is a potential thermal insulation material for load-bearing applications such as walling systems in buildings, where not only low thermal conductivity but also high mechanical strength is required.

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Comparison of Three Manufacturing Techniques for Sustainable Porous Clay Ceramics

Cited by 7 publications

References 26 publications

The characteristics and production method between glazed and unglazed of ceramic and porcelain tiles by firing process: A review

The characteristics and production method between glazed and unglazed of ceramic and porcelain tiles by firing process: A review

A review on the production of porous ceramics using organic and inorganic industrial waste

Evaluating the properties of cellular ceramics prepared with a granite dust and plantain (Musa paradisiaca) peel powder for external wall thermal insulation of buildings

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