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ccmn.1998.0460608

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Reference Type	Journal (article/letter/editorial)
Title	X-Ray Diffraction Intensity Ratios I(111)/I(3¯11) of Natural Heulandites and Clinoptilolites
Journal	Clays and Clay Minerals
Authors	Esenli, Fahri		Author
Authors	Kumbasar, Isik		Author
Year	1998	Volume	46
Issue	6
Publisher	Springer Science and Business Media LLC
DOI	doi:10.1346/ccmn.1998.0460608Search in ResearchGate
	Generate Citation Formats
Classification	Not set	LoC	Not set
Mindat Ref. ID	147411	Long-form Identifier	mindat:1:5:147411:8
GUID	0
Full Reference	Esenli, Fahri, Kumbasar, Isik (1998) X-Ray Diffraction Intensity Ratios I(111)/I(3¯11) of Natural Heulandites and Clinoptilolites. Clays and Clay Minerals, 46 (6) 679-686 doi:10.1346/ccmn.1998.0460608
Plain Text	Esenli, Fahri, Kumbasar, Isik (1998) X-Ray Diffraction Intensity Ratios I(111)/I(3¯11) of Natural Heulandites and Clinoptilolites. Clays and Clay Minerals, 46 (6) 679-686 doi:10.1346/ccmn.1998.0460608
In	(1998) Clays and Clay Minerals Vol. 46 (6) Springer Science and Business Media LLC
Abstract/Notes	Heulandite-group zeolites are abundant in the Miocene pyroclastics from Western Anatolia, Turkey. We investigated the relation between the I(111)/I(3¯11) intensity ratios measured by X-ray diffraction (XRD) and the content of exchangeable cations for 15 samples of natural heulandite-group minerals gathered from the Gördes and Bigadiç regions of Western Anatolia. The intensity ratios range from 0.77 to 0.94 in natural heulandites and from 1.38 to 1.80 in natural clinoptilolites. The data obtained from Na-, K- and Ca-exchanged forms of a heulandite and clinoptilolite show that the intensity ratio increases with Na-, K- and Ca-exchange in heulandite and also with Na- and K-exchange in clinoptilolite, whereas it decreases with Ca-exchange in clinoptilolite. The intensity ratios were calculated using the known structural data of clinoptilolites to understand the effect of positions, amounts and kinds of exchangeable cations and water molecules. An increase in Na and Ca may increase or decrease the intensity ratio, depending on their sites and occupancies. Potassium causes a significant increase in the intensity ratio and an increase in Mg decreases the intensity ratio. There is a strong correlation between the intensity ratio I(111)/I(3¯11) and (Na + K)/(Ca + Mg) ratio and thermal stability, both of which have been used to characterize heulandite-group minerals.

Mineral Pages

Mineral	Citation Details
Clinoptilolite Subgroup
Clinoptilolite-Ca
Clinoptilolite-K
Clinoptilolite-Na
Heulandite-Ca
Heulandite-K
Heulandite-Na

👁 Image	Esenli, Fahri, Ekinci Şans, Bala, Erdoğan, Burcu, Sirkecioğlu, Ahmet (2023) The surface characteristics of natural heulandites/clinoptilolites with different extra-framework cations. Clay Minerals, 58 (4) 378-387 doi:10.1180/clm.2023.34
👁 Image	*(1998) J. D. Hanawalt Powder Diffraction Award. Clays and Clay Minerals, 46 (1) 113 doi:10.1346/ccmn.1998.0460114*
👁 Image	*Frost, Ray L. (1998) Hydroxyl Deformation in Kaolins. Clays and Clay Minerals, 46 (3) 280-289 doi:10.1346/ccmn.1998.0460307*
👁 Image	*Gharrabi, M. (1998) The Transformation of Illite to Muscovite in Pelitic Rocks: Constraints from X-ray Diffraction. Clays and Clay Minerals, 46 (1) 79-88 doi:10.1346/ccmn.1998.0460109*
👁 Image	*Mendelovici, E. (1976) Organic Derivatives of Attapulgite—I. Infrared Spectroscopy and X-Ray Diffraction Studies. Clays and Clay Minerals, 24 (4) 177-182 doi:10.1346/ccmn.1976.0240405*
👁 Image	*Milne, I. H. (1955) Methods of Preparation and Control of Clay Mineral Specimens in X-Ray Diffraction Analysis. Clays and Clay Minerals, 4 (1) 22-30 doi:10.1346/ccmn.1955.0040104*
👁 Image	*Eberl, D. D. (1998) Measurement of Fundamental Illite Particle Thicknesses by X-ray Diffraction Using PVP-10 Intercalation. Clays and Clay Minerals, 46 (1) 89-97 doi:10.1346/ccmn.1998.0460110*
👁 Image	*(1998) International Centre for Diffraction Data Crystallography Scholarship Awards. Clays and Clay Minerals, 46 (2) 223 doi:10.1346/ccmn.1998.0460214*
👁 Image	*(1998) Announcement. Clays and Clay Minerals, 46 (1) 112 doi:10.1346/ccmn.1998.0460113*
👁 Image	Plançon, A. (1977) Determination of Structural Defects in Phyllosilicates by X-Ray Powder Diffraction—I. Principle of Calculation of the Diffraction Phenomenon. Clays and Clay Minerals, 25 (6) 430-435 doi:10.1346/ccmn.1977.0250609
👁 Image	*Lanson, Bruno (1992) Decomposition of X-ray Diffraction Patterns: A Convenient Way to Describe Complex I/S Diagenetic Evolution. Clays and Clay Minerals, 40 (6) 629-643 doi:10.1346/ccmn.1992.0400602*

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⇱ Esenli, Fahri, Kumbasar, Isik (1998) X-Ray Diffraction Intensity Ratios I(111)/I(3¯11) of Natural Heulandites and Clinoptilolites. Clays and Clay Minerals, 46 (6) 679-686 doi:10.1346/ccmn.1998.0460608

Esenli, Fahri, Kumbasar, Isik (1998) X-Ray Diffraction Intensity Ratios I(111)/I(3¯11) of Natural Heulandites and Clinoptilolites. Clays and Clay Minerals, 46 (6) 679-686 doi:10.1346/ccmn.1998.0460608

Mineral Pages

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