Influence of the Heating Rate on the Phase and Microstructural Transformations of Smectite Clays

Wherllyson Patrício Gonçalves; Valmir José da Silva; Josileido Gomes; Gelmires de Araújo Neves; Romualdo Rodrigues Menezes; Lisiane Navarro de Lima Santana

doi:10.4028/www.scientific.net/MSF.820.46

Paper Titles

Characterization of Clay Used in Structural Ceramic
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Study of Process Variables for Organofilization of the Bentonite Clay from Cubati, Pb
p.30

Characterization of Natural Clay Vermiculite, Expanded by Indirect Method for Energy and Microwave
p.36

Study of a Typical Soil Used for Concrete Bricks in Miracema, State of Rio de Janeiro, Brazil
p.40

Influence of the Heating Rate on the Phase and Microstructural Transformations of Smectite Clays
p.46

Study of the Characterization of Smectitic Clays from a Town in the State of Paraíba
p.51

Physico-Mineralogical Characterization: Bentonitic Clays Recently Found in Olivedos, Paraíba, Brazil
p.56

Characterization, Modification and Rheology of Green Clay
p.60

Bentonite Clays Characterization in the Town of Sossego – Paraiba State
p.65

HomeMaterials Science ForumMaterials Science Forum Vol. 820Influence of the Heating Rate on the Phase and...

Influence of the Heating Rate on the Phase and Microstructural Transformations of Smectite Clays

Abstract:

Clays are very important raw materials in the manufacturing of traditional ceramic products. The present study was intended to study the phase transformations of smectites submitted to thermal treatment in conventional stove, applying slow and fast cycles. We used three clays, two national and one imported, which were beneficiated and characterized by mineralogical analysis. Later, they were submitted to a thermal treatment at 1100, 1200 and 1250°C, with heating rate of 5 and 30°C/min, remaining under the maximum temperature for 60 minutes. We observed the presence of mullite peaks starting at 1100°C for all samples. It was verified that the sample with the highest alumina/silica ratio presented more intense mullite peaks, and the sample with the high MgO content, besides the mullite phase, also formed cordierite.