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Stilbite
Tectosilicate mineral of the zeolite group

Stilbite is a series of tectosilicate minerals within the zeolite group. Before 1997, stilbite was classified as a single mineral, but the International Mineralogical Association redefined it as a series name, including two mineral species: Stilbite-Ca and Stilbite-Na (also known as stiblite). Stilbite-Ca is the more common species, a hydrous calcium sodium aluminium silicate with the formula NaCa4(Si27Al9)O72·28(H2O). Stilbite-Na has more sodium than calcium, though both species look alike, so the series name stilbite is often used without chemical analysis.

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History

At one time heulandite and stilbite were considered to be identical minerals. After they were found to be two separate species, in 1818, the name desmine ("a bundle") was proposed for stilbite, and this name is still employed in Germany. The English name "stilbite" is from the Greek stilbein = to shine, because of the pearly luster of the {010} faces.

Stilbite shows a wide variation in exchangeable cations: silicon and aluminium ions occupy equivalent sites and can substitute for each other. Since silicon and aluminium have a different charge (Si4+ and Al3+) the ions occupying the sodium/calcium site have to adjust to maintain charge balance. There is a continuous series between stellerite, whose formula can be written as Ca4(Si28Al8)O72·28(H2O), and stilbite, and another continuous series between stilbite and barrerite, Na8(Si28Al8)O72·26(H2O).

Epistilbite is a distinct zeolite species unrelated to stilbite.

Crystal class

Stilbite is usually monoclinic 2/m, meaning that it has one twofold axis of rotational symmetry perpendicular to a mirror plane. The twofold axis is the crystal axis b, and the a and c crystal axes lie in the mirror plane. For a monoclinic crystal a and c are inclined to each other at an angle β which is not a right angle. For stilbite β is nearly 130°. Stilbite crystals, however, appear to be almost orthorhombic, and a larger unit cell can be chosen, containing two formula units (Z = 2) such that resembles an orthorhombic cell, with all three crystal axes very nearly mutually perpendicular. The mineral is said to be pseudo-orthorhombic.

Non-endmember forms of stilbite may be triclinic or even truly orthorhombic, indeed the framework can have symmetry ranging from orthorhombic to triclinic in a single crystal.2

Habit

Crystals are typically thin tabular, flattened parallel to the dominant cleavage and elongated along the a axis. Aggregates may be sheaf-like or in bow-ties, also fibrous and globular.3 Twinning, cruciform and penetration, is extremely common on {001}.4

Physical and optical properties

The color is usually colorless or white, also yellow, brown, pink, salmon, orange, red, green, blue or black. The luster is generally vitreous, and on the perfect cleavage parallel to the plane of symmetry it is markedly pearly. The streak is white and crystals are transparent to translucent. The hardness is 3+1⁄2 to 4 and the specific gravity 2.12 to 2.22. Cleavage is perfect on {010}, poor on {001}.5 The mineral is brittle, with a conchoidal or uneven fracture. It is not radioactive.

Stilbite is biaxial (-) with refractive indices:

  • Nx = 1.479 to 1.492, Ny = 1.485 to 1.500, Nz = 1.489 to 1.50567
  • Nx = 1.484 to 1.500, Ny = 1.492 to 1.507, Nz = 1.494 to 1.51389

Unit cell and structure

Where sources give cell parameters for stilbite-Na, they are the same as those for stilbite-Ca.

The unit cell can be considered as a monoclinic cell with β close to 130° and one formula unit per unit cell (Z = 1), or as a larger pseudo-orthorhombic cell with β close to 90° and Z = 2. Cell Parameters for the monoclinic cell:

  • a = 13.595 to 13.69 Å, b = 18.197 to 18.31 Å, c = 11.265 to 11.30 Å, β = 127.94 to 128.1°10
  • a = 13.63 Å, b = 18.17 Å, c = 11.31 Å, β = 129.166°11121314
  • a = 13.60 to 13.69 Å, b = 18.20 to 18.31 Å, c = 11.27 Å, β = 128°15

Cell parameters for the pseudo-orthorhombic cell:

  • a = 13.595 to 13.69 Å, b = 18.197 to 18.31 Å, c = 17.775 to 17.86 Å, β = 90.00 to 90.91°16
  • a = 13.595 to 13.657 Å, b = 18.197 to 18.309 Å, c = 17.775 to 17.842 Å, β = 90:05 to 90.91°17 (Z is doubled to Z = 4 because the formula unit halved to NaCa2Al5Si13O36.14H2O)
  • a=13.69 Å, b=18.25 Å, c=11.31 Å, β =128.2°18
  • a = 13.60 to 13.69 Å, b = 18.20 to 18.31 Å, c = 17.78 to 17.86 Å, β = 90.0 to 90.91°19

The framework of stilbite is pseudo-orthorhombic with the open channels typical of zeolites. It has 10-member rings and 8-member rings forming channels parallel to a and pseudo-orthorhombic c respectively.20

Uses

The open channels in the stilbite structure act like a molecular sieve, enabling it to separate hydrocarbons in the process of petroleum refining.

Environment

Stilbite is a low-temperature secondary hydrothermal mineral. It occurs in the amygdaloidal cavities of basaltic volcanic rocks, in andesites, gneiss and hydrothermal veins. It also forms in hot springs deposits, and as a cementing agent in some sandstones and conglomerates.21 Stilbite has not been found in sedimentary tuff deposits or deep-sea deposits.22 Associated minerals are other zeolites, prehnite, calcite and quartz.23

Localities

Stilbite is abundant in the volcanic rocks of Iceland, Faroe Islands, Isle of Skye, Bay of Fundy, Nova Scotia (where it is the provincial mineral), northern New Jersey and North Carolina. Salmon-pink crystals occur with pale green apophyllite in the Deccan Traps near Mumbai (Bombay) and Pune, India; white sheaf-like groups encrust the calcite (Iceland-spar) of Berufjord near Djupivogr in Iceland; brown sheafs are found near Paterson, New Jersey in the United States; and crystals of a brick-red color are found at Old Kilpatrick, Scotland.24

Iceland is generally considered to be the type locality for stilbite-Ca. It is presumed to be the Helgusta Iceland Spar Mine, along Reydarfjordur. Excellent white bow ties of stilbite are found here on calcite and quartz, associated with heulandite and laumontite in cavities.25

The type locality for stilbite-Na is Cape Pula, Pula, Cagliari Province, Sardinia, Italy. Small, lustrous, white or pink, pointed blades of stilbite-Na, and formless masses, up to 5 cm in diameter, have been found there, covering a thin crust of reddish heulandite in large fractures and cavities in the highly weathered volcanic andesite or rhyolite.

The Tertiary Deccan basalts of western India are the most prolific sources of stilbite in the world. Stilbite is the most abundant zeolite in the tholeiitic basalt plateaux near Nasik and Pune and decreases in abundance toward the coast at Mumbai.26

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References

  1. Krivovichev V. G. Mineralogical glossary. Scientific editor A. G. Bulakh. — St.Petersburg: St.Petersburg Univ. Publ. House. 2009. — 556 p. — ISBN 978-5-288-04863-0 https://uk.wikipedia.org/wiki/%D0%91%D1%83%D0%BB%D0%B0%D1%85_%D0%90%D0%BD%D0%B4%D1%80%D1%96%D0%B9_%D0%93%D0%BB%D1%96%D0%B1%D0%BE%D0%B2%D0%B8%D1%87

  2. Rudy W. Tschernich (1992) Zeolites of the World. Geoscience Press

  3. Rudy W. Tschernich (1992) Zeolites of the World. Geoscience Press

  4. Gaines et al (1997) Dana’s New Mineralogy Eighth Edition. Wiley

  5. Rudy W. Tschernich (1992) Zeolites of the World. Geoscience Press

  6. Rudy W. Tschernich (1992) Zeolites of the World. Geoscience Press

  7. "Stilbite-Ca Mineral Data". http://webmineral.com/data/Stilbite-Ca.shtml

  8. http://www.mindat.org/min-7313.html stilbite-Ca http://www.mindat.org/min-7313.html

  9. "Archived copy" (PDF). Archived from the original (PDF) on 2020-03-29. Retrieved 2010-07-29.{{cite web}}: CS1 maint: archived copy as title (link) https://web.archive.org/web/20200329041312/http://www.handbookofmineralogy.org/pdfs/stilbiteca.pdf

  10. Gaines et al (1997) Dana’s New Mineralogy Eighth Edition. Wiley

  11. "Stilbite-Ca Mineral Data". http://webmineral.com/data/Stilbite-Ca.shtml

  12. http://www.mindat.org/min-7313.html stilbite-Ca http://www.mindat.org/min-7313.html

  13. http://www.mindat.org/min-7314.html stilbite-Na http://www.mindat.org/min-7314.html

  14. "Stilbite-Na Mineral Data". http://webmineral.com/data/Stilbite-Na.shtml

  15. Rudy W. Tschernich (1992) Zeolites of the World. Geoscience Press

  16. Gaines et al (1997) Dana’s New Mineralogy Eighth Edition. Wiley

  17. "Archived copy" (PDF). Archived from the original (PDF) on 2020-03-29. Retrieved 2010-07-29.{{cite web}}: CS1 maint: archived copy as title (link) https://web.archive.org/web/20200329041312/http://www.handbookofmineralogy.org/pdfs/stilbiteca.pdf

  18. American Mineralogist (1970) 55: 387–397

  19. Rudy W. Tschernich (1992) Zeolites of the World. Geoscience Press

  20. American Mineralogist (1970) 55: 387–397

  21. "Archived copy" (PDF). Archived from the original (PDF) on 2020-03-29. Retrieved 2010-07-29.{{cite web}}: CS1 maint: archived copy as title (link) https://web.archive.org/web/20200329041312/http://www.handbookofmineralogy.org/pdfs/stilbiteca.pdf

  22. Rudy W. Tschernich (1992) Zeolites of the World. Geoscience Press

  23. "Archived copy" (PDF). Archived from the original (PDF) on 2020-03-29. Retrieved 2010-07-29.{{cite web}}: CS1 maint: archived copy as title (link) https://web.archive.org/web/20200329041312/http://www.handbookofmineralogy.org/pdfs/stilbiteca.pdf

  24. Spencer 1911. - Spencer, Leonard James (1911). "Stilbite". In Chisholm, Hugh (ed.). Encyclopædia Britannica (11th ed.). Cambridge University Press.

  25. Rudy W. Tschernich (1992) Zeolites of the World. Geoscience Press

  26. Rudy W. Tschernich (1992) Zeolites of the World. Geoscience Press