By Felix Singer, Sonja S. Singer (auth.)
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Example text
52·04 } 44·51 2·36 0·16 0·12 0·81 Westerwald refractory clay Fuchs } F34 Germ. 48·36 34·72 1·36 0·10 0·32 1·46 1-47 12·08 34/35 32/33 Berdel 98·27 3·33 1·52 greyish 1120 1120 19 bond for refractories (81) 0·80 0·93 refractories refractories so INDUSTRIAL CERAMICS TABLE 3 Selection of Analyses of [Cols. 82 to 85: Fireclays and Refractory Clays. Name } District I Cols. (82) (83) Lawrence, Ohio, plastic fireclay Carter, Ky, flint fireclay Clearfield, Pa. A. A. A. 43·04 1-79 36·49 1·37 0·83 0·54 0·74 0·46 1·10 0·01 0·01 0·24 0·10 0·01 13·56 (84) Mining firm Ref.
Group II: Properties or factors derived from Group I: (a) Adsorption phenomena. (b) The packing and textural characteristics. Group III: Those physical properties controlled by (a), or (a) and (b) of Group II: (a) Dry strength. (b) Drying shrinkage. (c) Plasticity. (d) Flow characteristics. (e) Stability of suspensions. (f) Drying behaviour. (g) Permeability. and others. The previous section dealt with the compos1t10ns of clays. properties in Groups II and III will be considered. Here the The Properties of Clay Particles ADSORPTION PHENOMENA OF CLAY COLLOIDS The extremely small particles of clay minerals exhibit ' colloidal' properties derived from the charged nature of their surfaces.
THE RAW MATERIALS Kaolin The name is a corruption of the Chinese 'kao-liang ', meaning 'high ridge', a local designation for the area where a white china clay was found. The kaolins or china clays, the latter expression often being reserved for the Cornish product, are white-burning clays, generally of low plasticity, and high refractoriness (cone 34 to 35) (1750-1770° C, 3182-3218° F). g. of the Cornish ~lay rock only about 13% is extracted as china clay. But after washing the chemical composition of the clay approximates to that of kaolinite; this mineral does in fact predominate in kaolins but others are present.