Workability of clay mixtures

Raw clays undergo mixing for the manufacture of structural clay products and ball clays and kaolins are carefully selected, processed, stored and blended in various proportions to produce consistent formulations for the wide range of fine ceramic products. The effects of blending different clays wit...

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Bibliographic Details
Published in:Applied clay science 2018-03, Vol.153, p.107-112
Main Author: Barnes, G.E.
Format: Article
Language:English
Subjects:
Adhesion limit
Atterberg limits
Ball clay
Clay mixtures
Fireclay
Toughness
Workability
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Summary:Raw clays undergo mixing for the manufacture of structural clay products and ball clays and kaolins are carefully selected, processed, stored and blended in various proportions to produce consistent formulations for the wide range of fine ceramic products. The effects of blending different clays with a range of proportions have been investigated on the Atterberg plasticity limits and on the toughness-water content relationships. It is demonstrated that blending of raw and processed clays with different mineralogy and plasticity properties can produce liquid and plastic limits and toughness-water content relationships that do not follow a linear interpolation between the individual properties of the clays in relation to their proportions. Mixing of high plasticity clay with a lower plasticity clay produced a wider range of water contents over which the mixtures remained plastic, particularly with lower water contents which would be desirable when considering shrinkage properties. However, this resulted in increased toughness and harder workability, a less desirable factor. •Workability is viewed as a composite of the toughness and the range of water contents.•Mixtures of typical ceramic clays in fixed proportions are investigated.•The linear law of mixtures is found not to apply for the workability (toughness and water contents) and the Atterberg limits.•Brittle, stiff-plastic, soft-plastic and adhesive-plastic regions are identified.•The results benefit from the use of a sensitive apparatus to deform clay in its fully plastic or ductile state.
ISSN:0169-1317
1872-9053
DOI:10.1016/j.clay.2017.12.006