Anthophyllite R070245

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Record 3212 of 4216  


Name: Anthophyllite
RRUFF ID: R070245
Ideal Chemistry: ◻Mg2Mg5Si8O22(OH)2
Locality: Shartash, Zlatoust, Ilmen Mts, Chelyabinsk Oblast', Urals Region, Russia
Source: Michael Scott S105774 [view label]
Owner: RRUFF
Description: Translucent to transparent grey bladed crystals with satin luster (fibrous appearance) associated with hematite
Status: The identification of this mineral has been confirmed only by single crystal X-ray diffraction.
Mineral Group: [ amphibole (107) ]
Quick search: [ All Anthophyllite samples (2) ]
RAMAN SPECTRUM 
RRUFF ID:
Sample Description: Unoriented sample
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BROAD SCAN WITH SPECTRAL ARTIFACTS
RRUFF ID: R070245
Wavelength:
Sample Description: Unoriented sample
Instrument settings: Thermo Almega XR 532nm @ 100% of 150mW
POWDER DIFFRACTION 
RRUFF ID: R070245.9
Sample Description: Single crystal, powder profile is calculated
Cell Refinement Output: a: 18.529(4)Å    b: 18.005(4)Å    c: 5.2779(9)Å
alpha: 90°    beta: 90°    gamma: 90°   Volume: 1760.8(3)Å3    Crystal System: orthorhombic
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Calculated diffraction file.

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Output file from the Bruker D8 Advance instrument. Includes device headers and XY data.

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REFERENCES for Anthophyllite

American Mineralogist Crystal Structure Database Record: [view record]

Anthony J W, Bideaux R A, Bladh K W, and Nichols M C (1990) Handbook of Mineralogy, Mineral Data Publishing, Tucson Arizona, USA, by permission of the Mineralogical Society of America. [view file]

Schumacher C F (1801) Anthophyllit, in Versuch eines Verzeichnisses der in den Dänisch-Nordischen Staaten sich findenden einfachen Mineralien Brummer Kopenhagen 96-96   [view file]

Winchell A N (1931) Further studies in the amphibole group, American Mineralogist, 16, 250-266   [view file]

Rabbitt J C (1948) A new study of the anthophyllite series, American Mineralogist, 33, 263-323   [view file]

Mackenzie R C (1955) Mineralogical Society (London), American Mineralogist, 40, 773-780   [view file]

Chakraborty K L (1963) Relationship of anthophyllite, cummingtonite and mangano-cummingtonite in the metamorphosed Wabush iron-formation, Labrador, The Canadian Mineralogist, 7, 738-750   [view file]

Klein C (1966) Mineralogy and petrology of the metamorphosed Wabush Iron Formation, Southwestern Labrador, Journal of Petrology, 7, 246-305

Bailey S W (1977) Report of the I.M.A-I.U.Cr. Joint Committee on Nomenclature, American Mineralogist, 62, 411-415   [view file]

Veblen D R, Buseck P R, Burnham C W (1977) Asbestiform chain silicates: New minerals and structural groups, Science, 198, 359-365   [view file]

Leake B E (1978) Nomenclature of amphiboles, American Mineralogist, 63, 1023-1052   [view file]

Steel E, Wylie A (1981) Mineralogical characteristics of asbestos, 1, in Geology of Asbestos Deposits Edwards Brothers, Inc. Ann Arbor, MI. 93-99

Spear F S (1982) Phase equilibria of amphibolites from the post pond volcanics, Mt. cube quadrangle, Vermont, Journal of Petrology, 23, 383-426

Walitzi E M, Walter F, Ettinger K (1989) Verfeinerung der kristallstruktur von anthophyllit vom Ochsenkogel/Gleinalpe, Österreich, Zeitschrift für Kristallographie, 188, 237-244   [view file]

Blount A M (1990) Detection and quantification of asbestos and other trace minerals in powdered industrial-mineral samples, in Process Mineralogy IX The Mineral, Metals & Materials Society, edited by W Petruk, R D Hagni, S Pignolet-Brandom, D M Hausen 557-570   [view file]

Bard D, Yarwood J, Tylee B (1997) Asbestos fibre identification by Raman microspectroscopy, Journal of Raman Spectroscopy, 28, 803-809   [link]

Ford F D, Skippen G B (1997) Petrology of the Flinton Creek metaperidotites: enstatite - magnesite and anthophyllite - magnesite assemblages from the Grenville Province, The Canadian Mineralogist, 35, 1221-1236   [view file]

Leake B E, Woolley A R, Arps C E S, Birch W D, Gilbert M C, Grice J D, Hawthorne F C, Kato A, Kisch H J, Krivovichev V G, Linthout K, Laird J, Mandarino J A, Maresch W V, Nickel E H, Rock N M S, Schumacher J C, Smith D C, Stephenson N C N, Ungaretti L, Whittaker E J W, Youzhi G (1997) Nomenclature of amphiboles: report of the Subcommittee on Amphiboles of the International Mineralogical Association, Commission on New Minerals and Mineral Names, The Canadian Mineralogist, 35, 219-246   [view file]

Elliott-Meadows S R, Froese E, Appleyard E C (2000) Cordierite — anthophyllite — cummingtonite rocks from the Lar deposit, Laurie Lake, Manitoba, The Canadian Mineralogist, 38, 545-550   [view file]

Boffa Ballaran T, Carpenter M A (2003) Line broadening and enthalpy: Some empirical calibrations of solid solution behaviour from IR spectra, Phase Transitions, 76, 137-154

Leake B E, Woolley A R, Birch W D, Burke E A J, Ferraris G, Grice J D, Hawthorne F C, Kisch H J, Krivovichev V G, Schumacher J C, Stephenson N C N, Whittaker E J W (2003) Nomenclature of amphiboles: additions and revisions to the International Mineralogical Association’s 1997 recommendations, The Canadian Mineralogist, 41, 1355-1362   [view file]

Su S C (2003) A rapid and accurate procedure for the determination of refractive indices of regulated asbestos minerals, American Mineralogist, 88, 1979-1982   [view file]

Rinaudo C, Belluso E, Gastaldi D (2004) Assessment of the use of Raman spectroscopy for the determination of amphibole asbestos, Mineralogical Magazine, 68, 455-465   [view file]

Petry R, Mastalerz R, Zahn S, Mayerhöfer T G, Völksch G, Viereck-Götte L, Kreher-Hartmann B, Holz L, Lankers M, Popp J (2006) Asbestos mineral analysis by UV Raman and energy-dispersive X-ray spectroscopy, ChemPhysChem, 7, 414-420   [view file]

Harper M, Lee E G, Doorn S S, Hammond O (2008) Differentiating non-asbestiform amphibole and amphibole asbestos by size characteristics, Journal of Occupational and Environmental Hygiene, 5, 761-770   [view file]

Su S C (2008) in How to use the d-spacing/interfacial angle tables to index zone-axis patterns of amphibole asbestos minerals obtained by selected area electron diffraction in transmission electron microscope Asbestos Analysis Consulting Newark, Delaware 1-160   [view file]

Gunter M E (2010) Defining asbestos: differences between the built and natural environments, Chimia, 64, 747-752

Hawthorne F C, Oberti R, Harlow G E, Maresch W V, Martin R F, Schumacher J C, Welch M D (2012) Nomenclature of the amphibole supergroup, American Mineralogist, 97, 2031-2048   [view file]

Nestola F, Pasqual D, Welch M D, Oberti R (2012) The effects of composition upon the high-pressure behaviour of amphiboles: compression of gedrite to 7 GPa and a comparison with anthophyllite and proto-amphibole, Mineralogical Magazine, 76, 987-995   [view file]

McNamee B D, Gunter M E (2013) Compositional analysis and morphological relationships of amphiboles, talc and other minerals found in the talc deposits from the Gouverneur mining district, New York (Part 1 of 2), The Microscope, 61, 147-161

McNamee B D, Gunter M E (2014) Compositional analysis and morphological relationships of amphiboles, talc and other minerals found in the talc deposits from the Gouverneur mining district, New York (Part 2 of 2), The Microscope, 62, 3-13

Thompson E C, Campbell A J, Liu Z (2016) In-situ infrared spectroscopic studies of hydroxyl in amphiboles at high pressure, American Mineralogist, 101, 706-712

Tribaudino M, Hovis G L, Almer C, Leaman A (2022) Thermal expansion of minerals in the amphibole supergroup, American Mineralogist, 107, 1302-1312