Use of mechanically-activated kaolin to replace ball clay in engobe for a ceramic tile

Becker, Edward P.; Jiusti, Jeanini; Minatto, F. D.; Delavi, D. G. G.; Montedo, Oscar Rubem Klegues; Noni, Agenor De

doi:10.1590/0366-69132017633672077

Cited by 17 publications

(12 citation statements)

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“…The higher milling time applied in this study was 1 hours. According to the literature, 23 for the similar material and milling conditions, 1 hours is not enough to expect such structural changes. Regarding the specific energy consumption for the industrial ball mill, equation 1 accurately fits the experimental results from 0 to 13 hours.…”

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confidence: 97%

Additional high‐energy milling to enhance the performance of porcelain stoneware manufacturing

Darolt

Cargnin

Peterson

et al. 2020

Int J Applied Ceramic Tech

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Porcelain stoneware tile is the best class of ceramic tiles regarding technical performance. Low porosity and high glass content are some of its highlighted characteristics. The manufacturing cost is highly dependent on the feldspar content and the processing flow rate. Certain technical bottlenecks in the manufacturing steps, such as milling, forming, and firing, are intrinsically associated with limitations in the processing properties, such as the dry strength, bulk density, and pyroplastic deformation. In this work, improvements in these properties were achieved using high‐energy milling (HEM) after conventional milling (CM). This study was carried out on a pilot industrial scale in the milling stage. Six experimental runs were evaluated. Slurries were spray‐dried. The powders were humidified with 6.5% moisture. Specimens were conformed under a specific pressure of 45 MPa. The firing was performed using temperature ranging from 1150 to 1230°C. The use of HEM, in comparison to traditional milling for the similar particle‐size distributions, has increased the dry density, +0.2 g.cm−3, dry bending strength, +1.0 MPa, and decreased the pyroplastic deformation index, −1.10−5 cm−1. These results allow an estimated thickness reduction of 10%.

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mentioning

confidence: 97%

Additional high‐energy milling to enhance the performance of porcelain stoneware manufacturing

Darolt

Cargnin

Peterson

et al. 2020

Int J Applied Ceramic Tech

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“…At temperatures in the range 970–1000°C, an exothermic peak was observed related to spinels’ formation. These could result in the formation of mullite 44–47 …”

Section: Resultsmentioning

confidence: 99%

Characterization and use of clays from the Rio Bonito Formation/Paraná Basin for ceramic industry application

Comin

Zaccaron

Nandi

et al. 2021

Int J Applied Ceramic Tech

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Raw materials with different technological properties found in the same geological region can constitute a ceramic formulation upon proper mixing. This study aims to demonstrate the best way to develop a mixture using a mixture design method, emphasizing the geology of three clays in the Rio Bonito Formation/Paraná Basin. The mineralogical and chemical characteristics of these clays were investigated by X‐ray diffraction and X‐ray fluorescence, respectively, along with elementary (CNH), differential thermal and thermogravimetric analysis, and dilatometry. Ten formulations and their technological properties, including apparent density, shrinkage, water absorption, and mechanical resistance, were investigated. The results showed the potential of the studied mineral deposit clays for application in the ceramic industry in different materials. Clay 1 showed refractory characteristics, and Clay 3 was more plastic. The mixtures with higher contents of Clay 1 showed ideal for monoporosa tile recipes. The mixtures with higher contents of Clay 3 were ideal for porcelain tile pastes.

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“…The third endothermic event, between 570°C and 580°C, is related to the allotropic transformation of quartz (Galán-Arboledas et al , 2017; Barreto & da Costa, 2018), and the fourth endothermic event, in the range 700–800°C, may be related to the dehydroxylation of the mica (illite/muscovite) phase (Trindade et al , 2009). The last exothermic event at ~900°C is probably related to the formation of mullite (Becker et al , 2017; de Oliveira Henriques et al , 2017; de Sousa et al , 2017; Wang et al , 2017).…”

Section: Resultsmentioning

confidence: 99%

Characterization and use of clays and argillites from the south of Santa Catarina State, Brazil, for the manufacture of clay ceramics

et al. 2020

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Six clays from various deposits were studied for their use in the production of structural clay products. The clays were characterized using chemical (X-ray fluorescence), mineralogical (X-ray diffraction) and thermal (differential scanning calorimetry/thermogravimetry) analyses. Particle-size distribution was determined by laser diffraction, plasticity by the Pfefferkorn method and the residue by the sieve-size method. Next, specimens were formed by extrusion and characterized by their linear thermal shrinkage (on drying and firing), water absorption, bulk density, porosity and compressive strength. The clays were, in general, suitable for the manufacture of structural ceramics, mainly bricks. The clays from flooded pits (AV1 and AV2) were classified as floodplain clays and alluvial clays. The clays mined in mountainous regions (AM1 and AM2, as well as AV1) were characterized as siliceous clays due to the abundance of free SiO2 phases.

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Use of mechanically-activated kaolin to replace ball clay in engobe for a ceramic tile

Cited by 17 publications

References 1 publication

Additional high‐energy milling to enhance the performance of porcelain stoneware manufacturing

Additional high‐energy milling to enhance the performance of porcelain stoneware manufacturing

Characterization and use of clays from the Rio Bonito Formation/Paraná Basin for ceramic industry application

Characterization and use of clays and argillites from the south of Santa Catarina State, Brazil, for the manufacture of clay ceramics

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