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Infrared Analysis of Clays and Related Minerals

Published online by Cambridge University Press:  01 January 2024

Paul G. Nahin
Paul G. Nahin*
Affiliation:
Brea Researcli Center, Union Oil Company of California, Brea, California, USA
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Abstract

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Type
Part III—Methods of Identifying Clays and the Interpretation of Results
Information
Clays and Clay Technology (National Conference on Clays and Clay Technology) , Volume 1 , July 1955 , pp. 112 - 118
Copyright
© Clay Minerals Society 1952

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References

Selected References

Adler, H H, Infrared investigations of clay and related minerals Am. Petroleum Inst. Proj. 1950 New York Columbia University 172.Google Scholar
Barnes, R R Gore, R C Liddel, U Williams, V Z, Infrared spectroscopy, industrial applications and bibliography 1944 New York Reinhold Pub. Corp. 11.Google Scholar
Rates, T F Hildebrand, F A Swineford, A, Morphology and structure of endellite and halloysite Am. Mineralogist 1950 35 463484.Google Scholar
Bray, E E Stevens, N P, The preparation of clay-samples for infrared absorption measurement Am. Petroleum Inst., Prelim. Rept. 8 1950 New York Columbia University 78104.Google Scholar
Buswell, A H Krebs, K Rodebush, W H, Infrared studies. III. Adsorption bends of hydrogels between 2.5 and 3.5M Am. Chem. Soc. Jour. 1937 59 2603–05 10.1021/ja01291a039.CrossRefGoogle Scholar
Buswell, A M Dudenbostel, B F, Spectroscopic studies of base exchange materials Am. Chem. Soc. Jour. 1941 63 2554–58 10.1021/ja01855a003.CrossRefGoogle Scholar
Grüner, J W, An attempt to arrange silicates in the order of reaction energies at relatively low temperatures Am. Mineralogist 1950 35 138148.Google Scholar
Harrison, G R Lord, R C Loofbourow, J R, Practical spectroscopy 1948 261.Google Scholar
Henry, R L, The transmission of powder films in the infra-red Optical Soc. America Jour. 1948 38 775789 10.1364/JOSA.38.000775.CrossRefGoogle Scholar
Hunt, J M, Infrared spectra of clay minerals Am. Petroleum Inst. Proj. 1950 49 105121.Google Scholar
Hunt, J M Wisherd, M P Bonham, I C, Infrared absorption spectra of minerals and other inorganic compounds Anal. Chemistry 1950 22 14781497 10.1021/ac60048a006.CrossRefGoogle Scholar
Hunt, J M Turner, D S, The determination of the mineral constituents of rocks by infra-red spectroscopy Anal. Chemistry 1953 25 11691174 10.1021/ac60080a007.CrossRefGoogle Scholar
Keller, W D Pickett, E E, Absorption of infrared radiation by powdered silicate minerals Am. Mineralogist 1949 34 855864.Google Scholar
Keller, W D Pickett, E E, The absorption of infrared radiation by clav minerals Am. Jour. Sci. 1950 248 264273 10.2475/ajs.248.4.264.CrossRefGoogle Scholar
Keller, W D Spotts, J H Biggs, D L, Infra-red spectra of some rock-forming minerals Am. Jour. Sci. 1952 250 453471 10.2475/ajs.250.6.453.CrossRefGoogle Scholar
Lecomte, J, Jour. Physics Radium 1951 12 827828 10.1051/jphysrad:01951001208082702.CrossRefGoogle Scholar
Lewis, D R, Replacement of cations of clay by ion exchange resins Ind. Eng. Chemistry 1953 45 17821783 10.1021/ie50524a047.CrossRefGoogle Scholar
Mellon, M G e, Analytical absorption spectroscopy 1950 New York John Wiley & Sons, Inc. 440.Google Scholar
Nahin, P G Merrill, W C Grenall, A Crog, R S, Mineralogie studies of California oil-bearing formations. I. Identification of clays Jour. Petroleum Technology (Am. Inst. Min. Met. Eng. Petroleum Trans.) 1951 192 156158.Google Scholar
Pauling, L C, Nature of the chemical bond 1948 2 240.Google Scholar
Plyler, E K, Combination frequencies of the infra-red bands of quartz Physical Review 1929 33 4851 10.1103/PhysRev.33.48.CrossRefGoogle Scholar
Ross, C S, Sauconite—a clay mineral of the montmoril-lonite group Am. Mineralogist 1946 31 411424.Google Scholar
Ross, C S Hendricks, S B, Minerals of the mont-morillonite group, their origin and relation to soils and clavs U. S. Geol. Survey Prof. Paper 205-B 1945 2379.CrossRefGoogle Scholar
Sands, J D Turner, G S, New development in solid phase infrared spectroscopy Anal. Chemistry 1952 24 791 10.1021/ac60065a008.CrossRefGoogle Scholar
Schäfer, C Matossi, F, Has ultrarote Spektrum Springer, Berlin 1930 10.1007/978-3-7091-5900-2.CrossRefGoogle Scholar
Vedeneeva, N E, Izmeneniya spectrov Invasitelei pri adsorbtsii na mineralakh glin (Changes in the spectra of dyes when adsorbed on clay minerals): Zhurnal Fizicheskoi Khimi (Jour. Phys. Chemistry) (U. S. S. R.) 1947 21 881891.Google Scholar
Wells, A F, Structural inorganic chemistry 1945 104.Google Scholar
Wieklander, E, Saturation of colloids and soils by means of exchange resins Ann. Royal Agri. Coll. Sweden 1951 18 154162.Google Scholar
Yaroslavskii, N G Terenin, A N, Infrakrasnye spektry pogloshcheniyn adsorbirovannykh molekul (Infra-red adsorption spectra of adsorbed molecules) Poklady Akad. Nauk SSSR (Reports of the Academy of Science of the U. S. S. R.) 1949 66 885888.Google Scholar