Where it forms, where it's found
- Geological setting
Emerald mine; in chromitite
- Type locality
- Saranovskii Mine
- Sarany
- Gornozavodskii District
- Perm Krai
- Russia
58.5063°, 58.7818°
1recorded occurrences
Physical
Optical
- Optical type
- Biaxial (+) · 2V measured = 80° · 2V calc = 80.5°
- Pleochroism
- Visible
X = emerald green, Y = yellow green, Z = greenish yellow
- Extinction
- γ > β > α
- Optical colour
- gray with a very weak bluish tint
- Anisotropism
- Weak, without color effects
- Bireflectance
- Very weak
- Internal reflections
- Very strong
- Tropism
- Anisotropic
- Reflectance R%
- (12.3, 12.9) 589
- UV response
- Not luminescent either in shortwave (254 nm) or midwave (315 nm) UV light or cathode rays.
Reflected-light panel
R̄ 12.3 %anisotropic · dual curve
Specimen
White reference
R₁ R₂
Mode
Crystallography
- Space group
- #80
- Cell parameters
- a = 10.3553(2) Å · c = 20.7301(4) Å
- Twinning
Chrysoberyl-type triplets
- Type-locality form
Anhedral fine grains (less than 1 mm)
Chemical composition
Synonyms
- IMA2020-015
- Saranovskiet
In other languages
- German
- IMA 2020-015 · Saranovskit
Classification
Strunz
10th ed.4.CC
- 4OxidesClass
- 4.CMetal: Oxygen = 2: 3,3: 5, and similarDivision
- 4.CCWith large and medium-sized cationsGroup
- 4.CCSaranovskiteSpecies
Group, growth & confusion
AlmeidaitePbZn2(Mn,Y)(Ti,Fe3+)18O36(OH,O)2Mineral—- BotuobinskiteSrFe2+(Ti4+12Cr3+6)Mg2[O36(OH)2]Mineral—
CleusonitePb(U4+,U6+)Fe2+2(Ti,Fe2+,Fe3+)18(O,OH)38Mineral—
CrichtoniteSr(Mn,Y,U)Fe2(Ti,Fe,Cr,V)18(O,OH)38Mineral—
Davidite-(Ce)Ce(Y,U)Fe2(Ti,Fe,Cr,V)18(O,OH,F)38Mineral—
Davidite-(La)La(Y,U)Fe2(Ti,Fe,Cr,V)18(O,OH,F)38Mineral—- Dessauite-(Y)Sr(Y,U,Mn)Fe2(Ti,Fe,Cr,V)18(O,OH)38Mineral—
Gramaccioliite-(Y)(Pb,Sr)(Y,Mn)Fe3+2(Ti,Fe3+)18O38Mineral—- Haitaite-(La)LaU4+Fe3+2(Ti13Fe2+4Fe3+)O38Mineral—
- Landauite(Na,Pb)(Mn2+,Y)(Zn,Fe)2(Ti,Fe3+,Nb)18(O,OH,F)O38Mineral—
Literature, links & citation
Citations
- 1888Mallard, Ernest (1888) Sur quelques substances cristallisées préparées par Ebelmen. Bulletin de la Société française de Minéralogie, 11 (8). 305-311 doi:10.3406/bulmi.1888.3212DOI: 10.3406/bulmi.1888.3212
- 1960Weir, C. E.; van Valkenburg, A. (1960) Studies of beryllium chromite and other beryllia compounds with R2O3 oxides. Journal of Research of the National Bureau of Standards Section A: Physics and Chemistry, 64A (1). 103-106 doi:10.6028/jres.064a.008DOI: 10.6028/jres.064a.008
- 2020Miyawaki, Ritsuro, Hatert, Frédéric, Pasero, Marco, Mills, Stuart J. (2020) IMA Commission on New Minerals, Nomenclature and Classification (CNMNC) – Newsletter 56. European Journal of Mineralogy, 32 (4) 443-448 doi:10.5194/ejm-32-443-2020 DOI: 10.5194/ejm-32-443-2020
- 2020Chukanov, Nikita V., Rastsvetaeva, Ramiza K., Kazheva, Olga N., Ivanov, Oleg K., Pekov, Igor V., Agakhanov, Atali A., Van, Konstantin V., Shcherbakov, Vasiliy D., Britvin, Sergey N. (2020) Saranovskite, SrCaFe2+2(Cr4Ti2)Ti12O38, a new crichtonite-group mineral. Physics and Chemistry of Minerals, 47 (11) 49 doi:10.1007/s00269-020-01119-1DOI: 10.1007/s00269-020-01119-1
- 2022(2022) Saranovskite. Handbook of Mineralogy. Mineralogical Society of America
Cite this entry
@misc{mineral2026,
author = {Mineral Index editorial board},
title = {Saranovskite — Mineral Index},
year = {2026},
url = {https://mineralindex.org/minerals/saranovskite-55032},
note = {Accessed 2026-05-11}
}