Modeling and Numerical Simulation of Clays Cracking During Drying

During drying or desiccation of clay-type materials, some stresses appear. Usually they are compressional inside of the material and tensional close to the surface. If the tensional stresses exceed the material strength, the clay cracks. This article is devoted to the modeling and numerical simulati...

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Bibliographic Details
Published inDrying technology Vol. 33; no. 14; pp. 1758 - 1767
Main Authors Musielak, G, Śliwa, T
Format Journal Article
LanguageEnglish
Published Philadelphia Taylor & Francis 01.01.2015
Taylor & Francis Ltd
Subjects
Boundary conditions
bricks
clay
clay fraction
Clays
Computer simulation
cracking
Cracking by drying
Cracks
Desiccants
Drying
Elastic
equations
Finite element method
mass transfer
Material strength
Mathematical modeling
Mathematical models
Network model
Quartz
Shrinkage
Simulation
Stresses
Viscoelastic
Viscoelasticity
Young's modulus
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Summary:During drying or desiccation of clay-type materials, some stresses appear. Usually they are compressional inside of the material and tensional close to the surface. If the tensional stresses exceed the material strength, the clay cracks. This article is devoted to the modeling and numerical simulation of this phenomenon. The proposed model consists of two parts. The mass transfer is described by a simple diffusion equation together with convective boundary conditions. In the mechanical part it is assumed that the clay is composed of small particles linked together by cohesive forces. These forces are described with the use of mesh models. Two models are proposed: elastic (mesh consists of springs) and viscoelastic one (mesh consists of Maxwell elements). Four types of clays were tested experimentally to obtain the model parameters. The tested materials were selected with respect to different mineralogical compositions that determine the water-bonding ability. Simulations of the convective drying of bricks made of these clays were performed. It was shown that the degree of cracking depends on the quartz content of the clay. The obtained results were compared with experimental ones and good agreement between simulations and experiment was obtained. Additionally, the inner forces caused by drying are analyzed and discussed in this work.
Bibliography:http://dx.doi.org/10.1080/07373937.2015.1036287
ObjectType-Article-1
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ISSN:1532-2300
0737-3937
1532-2300
DOI:10.1080/07373937.2015.1036287