Hostname: page-component-848d4c4894-nmvwc Total loading time: 0 Render date: 2024-06-30T10:41:43.718Z Has data issue: false hasContentIssue false
  • English
  • Français

Structural Mineralogy of Clays

Published online by Cambridge University Press:  01 January 2024

George W. Brindley
George W. Brindley*
Affiliation:
Physics Laboratories, The University, Leeds, England Pennsylvania State University, Pennsylvania, USA
Get access Rights & Permissions [Opens in a new window]

Abstract

An abstract is not available for this content so a preview has been provided. Please use the Get access link above for information on how to access this content.
Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Part I—Geology and Mineralogy of Clays
Information
Clays and Clay Technology (National Conference on Clays and Clay Technology) , Volume 1 , July 1955 , pp. 33 - 43
Copyright
© Clay Minerals Society 1952

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Alexanian, C Wey, R, Sur l’existence d’une raie intense a 32A enviion dans le diagramme de rayons X de plaquettes de montmorillonite orientee Acad. Sci., Paris, Oomtes Rendus 1951 232 18551856.Google Scholar
Aruja, E, An X-ray study of the crystal-structure of antigorite Mineralog. Mag. 1945 27 65.Google Scholar
Barshad, I, Vermiculite and its relation to biotite as revealed by base exchange reactions, X-ray analyses, differential thermal curve and water content Am. Mineralogist 1948 33 655678.Google Scholar
Barshad, I, The effect of the interlayer cations on the expansion of the mica tvpe of crvstal lattice Am. Mineralogist 1950 35 225238.Google Scholar
Bates, T F Hildebrand, F A Swineford, A, Morphology and structure of endellite and halloysite Am. Mineralogist 1950 35 463484.Google Scholar
Bates, T F Sand, L B Mink, J F, Tubular crystals of chrysotile asbestos Science 1950 III 512513 10.1126/science.111.2889.512.CrossRefGoogle Scholar
Bradley, W F, The alternating layer sequence of rectorite Am. Mineralogist 1950 35 590595.Google Scholar
Bradley, W F Grim, K E, High temperature thermal effects of clay and related materials Am. Mineralogist 1951 36 182201.Google Scholar
Bragg, W. L., 1937, Atomic structure of minerals: 292 pp., Oxford Univ. Press; Cornell Univ. Press.Google Scholar
Bramao, L Oady, J G Hendricks, S B Swerdlow, M, Criteria for the characterization of kaolinite, halloysite, and a related mineral in clays and soils Soil Science 1952 T3 273287 10.1097/00010694-195204000-00003.CrossRefGoogle Scholar
Brindley, G W, Editor, X-ray identification and crystal structures of clay minerals 1951 Mineralogical Soc. London.Google Scholar
Brindley, G W, The crystal structure of some chamo-site minerals Mineralog. Mag. 1951 29 502525.Google Scholar
Brindley, G W Ali, S Z, X-ray study of thermal transformations in some magnesian chlorite minerals Acta Crystal-lographica 1950 3 2530 10.1107/S0365110X50000069.CrossRefGoogle Scholar
Brindley, G W MacEwan, D M C, Green, A T Stewart, G H Ceramic, V, Structural aspects of the mineralogy of clays and related silicates symposium 1953 The British Ceramic Society Stoke-on-Trent 1559.Google Scholar
Brindley, G W Oughton, B M Robinson, K, Polymorphism of the chlorites. I. Ordered structures Acta Crystal-lographica 1950 3 408416 10.1107/S0365110X50001221.CrossRefGoogle Scholar
Brindley, G W Robinson, K, The structure of kaolinite Mineralog. Mag. 1946 27 242253.Google Scholar
Brindley, G W Robinson, K, Randomness in the structures of kaolinitic clay minerals Faraday Soc. Trans. 1946 42B 198205 10.1039/tf946420b198.CrossRefGoogle Scholar
Brindley, G W Robinson, K, An X-ray study of some kaolinitic fire clays British Ceramic Soc. Trans. 1947 46 4962.Google Scholar
Brindley, G W Robinson, K, X-ray studies of halloysite and metahalloysite Mineralog. Mag. 1948 28 393406.Google Scholar
Brindley, G W Youell, R F, V. chemical determination of “tetrahedral” and “octahedral” aluminium ions in a silicate Acta Crystallographies 1959 4 495496 10.1107/S0365110X51001689.CrossRefGoogle Scholar
Brindley, G W Youell, R F, Ferrous chamosite and ferric chamosite Mineralog. Mag. 1953 30 5770.Google Scholar
Brown, G, Brindley, G W, Nomenclature of the mica clay minerals X-ray identification and crystal structures of clay minerals; Chap. 5 1901 155172.Google Scholar
Brown, G Korrish, K, Hydrous micas Mineralog. Mag. 1952 29 929932.Google Scholar
Caillerc, S, Brindley, G W, Sepiolite X-ray identification and crystal structures of clay minerals 1951 224233.Google Scholar
Caillere, S Henin, S, Brindley, G W, Palygorskite—attapulgite X-ray identification and crystal structures of clay minerals 1951 234243.Google Scholar
Caillere, S Mathieu-Sicaud, A Henin, S, Nouvel essai d’identifieation du mineral de La Table pres Allevard, l’alle-vardite Soc. Francais MlnSralogie Crystallographie, Bull. 1950 73 193201 10.3406/bulmi.1950.4707.CrossRefGoogle Scholar
Caillere, S Henin, S, Transformation of minerals of the montmorillonite family into 10Å micas Mineralog. Mag. 1949 28 606611.Google Scholar
Caillere, S Henin, S, Experimental formation of chlorites from montmorillonite Mineralog. Mag. 1949 28 612.Google Scholar
Cole, W F Sorum, H Kennard, O, The crystal structures of orthoclase and sanadinized orthoclase Acta Crystallographica 1949 2 280287 10.1107/S0365110X49000734.CrossRefGoogle Scholar
Comeforo, J E Fischer, R B Bradley, W F, Mulli-tization of kaolinite Am. Ceramic Soc. Jour. 1948 31 254259 10.1111/j.1151-2916.1948.tb14310.x.CrossRefGoogle Scholar
Fleischer, M, Some problems in nomenclature in mineralogy and inorganic chemistry Am. Soc. Testing Materials Proc 1947 47 10901108.Google Scholar
Foster, M D, The importance of exchangeable magnesium and cation exchange capacity in the study of montmorillonite clays Am. Mineralogist 1951 36 717730.Google Scholar
Frankuehen, I Schneider, M, Low angle X-ray scattering from chrysotiles Am. Chem. Soc. Tour. 1944 66 500.Google Scholar
Frondel, C Palache, C, Three new polymorphs of zinc sulfide Am. Mineralogist 1950 35 2942.Google Scholar
Grim, R E Bradley, W F, Editor, G W, The mica clay minerals, in Brindley X-ray identification and crystal structures of clay minerals 1951 London Mineralogical Society 138154.Google Scholar
Gruner, J W, The crystal structure of kaolinite Zeitschr. Kristallographie, Abt. A 1932 83 7588.Google Scholar
Gruner, J W, The crystal structure of dickite Zeitschr. Kristallographie, Abt. A. 1932 83 394404.Google Scholar
Gruner, J W, The structure and composition of greena-lite Am. Mineralogist 1936 21 449455.Google Scholar
Hallimond, A F, Discussion Clay Minerals Bull. 1951 1 136137.Google Scholar
Hallimond, A F, Problems of the sedimentary iron ores Yorkshire Geol. Soc. Proc 1951 28 6166 10.1144/pygs.28.2.61.CrossRefGoogle Scholar
Hendricks, S B, The crystal structure of nacrite Al2O3-2SiO2-H2O and the polymorphism of the kaolin minerals Zeitschr. Kristallographie 1938 100 509518.Google Scholar
Hendricks, S B, Lattice structure of clay minerals and some properties of clay Jour. Geology 1942 50 276290 10.1086/625051.CrossRefGoogle Scholar
Hendricks, S B Jefferson, M E, Polymorphism of the micas, with optical measurements Am. Mineralogist 1939 24 729771.Google Scholar
Hey, M H Bannister, F A, V. note on the thermal decomposition of crysotile Mineralog. Mag. 1949 28 333337.Google Scholar
Jackson, M L Hseung, Y Corey, R B Evans, E J Heuvel, R C V, Weathering sequence of clay-size minerals in soils and sediments. II. Chemical weathering of layer silicates Soil Sci. Soc. America Proc 1952 16 36 10.2136/sssaj1952.03615995001600010002x.CrossRefGoogle Scholar
von Knorring, O Brindley, G W Hunter, K, Nacrite from Hirvivaara, northern Karelia, Finland Mineralog. Mag. 1952 29 963972.Google Scholar
Mackenzie, B C Walker, Q F Hart, R, Illite occurring in decomposed granite at Ballater, Aberdeenshire Mineralog. Mag. 1949 28 704713.Google Scholar
Meldau, B Robertson, R H S, Morphologische Einflüsse auf technische Staubeigenschaften Ber. deut. Keram. Ges. 1952 29 2735.Google Scholar
Onsager, L, Discussion, in Summarized proceedings of a conference on structures of silicate minerals—London, November 1951 British Jour. Applied Physics 1952 3 281282.Google Scholar
Orcel, J Caillere, S Henin, S, Nouvel essai de classification des chlorites Mineralog. Mag. 1950 29 329340.Google Scholar
Pauling, L, The structure of micas and related minerals Nat. Acad. Sci. Proc. 1930 16 123129 10.1073/pnas.16.2.123.CrossRefGoogle ScholarPubMed
Pauling, L, The structure of the chlorites Nat. Acad. Sci., Proc 1930 16 578582 10.1073/pnas.16.9.578.CrossRefGoogle ScholarPubMed
Bamsdell, L S, Studies of silicon carbide Am. Mineralogist 1947 32 6482.Google Scholar
Bamsdell, L S Kohn, J A, Disagreement between crystal symmetry and X-ray diffraction data as shown by a new type of silicon carbide, 10H Acta Crystallographica 1951 4 111113 10.1107/S0365110X51000386.CrossRefGoogle Scholar
Ramsdell, L S Kohn, J A, Developments in silicon carbide research Acta Crystallographica 1952 5 215224 10.1107/S0365110X52000617.CrossRefGoogle Scholar
Richardson, H M, Brindley, G W, Phase changes which occur on heating kaolin clays X-ray identification and crystal structures of clay minerals 1951 Mineralogical Society (Clay Minerals Group) London 7685.Google Scholar
Boss, G S Hendricks, S B, Minerals of the montmorillonite group, their origin and relation to soils and clays U. S. Geol. Survey Prof. Paper 205-B 1931 151180.Google Scholar
Strunz, H, Mineralogische Tabellen; eine Klassifizierung der Mineralien auf kristallchemisehes Grundlage, mit einer Einfuhrung in die Kristallchemie 1941 Leipzig Akademische Verlagsgesellschaft.Google Scholar
Taylor, J H, In discussion on Observations of the chlorites of iron ores Clay Minerals Bull. 1951 1 137.Google Scholar
Walker, G P, The decomposition of biotite in the soil Mineralog. Mag. 1949 28 693703.Google Scholar
Walker, G F, Brindley, G W, Vermiculites and some related mixed-layer minerals X-ray identification and crystal structures of clay minerals 1951 Mineralogical Society (Clay Minerals Group) London 199223.Google Scholar
Weaver, C E Bates, T F, Privately circulated report. See Weaver, C. E., 195., v. classification of the 2:1 clay minerals Am. Mineralogist 1951 38 698706.Google Scholar
White, J L, Transformation of illite into montmorillonite Soil Sci. Soc., America Proc. 1950 1951 15 129133 10.2136/sssaj1951.036159950015000C0027x.CrossRefGoogle Scholar
Weyl, W A, Surfage structure and surface properties of crystals and glasses Am. Ceramic Soc. Jour. 1949 32 367 10.1111/j.1151-2916.1949.tb18915.x.CrossRefGoogle Scholar