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Category Silicate mineral
Chemical formula Al2Si2O5(OH)4
Crystal symmetry Triclinic 1
Unit cell a = 5.13 Å, b = 8.89 Å, c = 7.25 Å; α = 90°, β = 104.5°, γ = 89.8°; Z=2
Color White, sometimes red, blue or brown tints from impurities
Crystal habit Rarely as crystals, thin platy or stacked, More commonly as microscopic pseudohexagonal plates and clusters of plates, aggregated into compact, claylike masses
Crystal system Triclinic - Pedial
Cleavage Perfect on {001}
Tenacity Flexible but inelastic
Mohs scale hardness 2 - 2.5
Luster Pearly to dull earthy
Streak white
Specific gravity 2.16 - 2.68
Optical properties Biaxial (-)
Refractive index nα = 1.553 - 1.565, nβ = 1.559 - 1.569, nγ = 1.569 - 1.570
2V angle Measured: 24° to 50°, Calculated: 44°
References [1][2][3]

Kaolinite is a clay mineral, part of the group of industrial minerals, with the chemical composition Al2Si2O5(OH)4. It is a layered silicate mineral, with one tetrahedral sheet linked through oxygen atoms to one octahedral sheet of alumina octahedra.[4] Rocks that are rich in kaolinite are known as china clay, white clay, or kaolin.

The name is derived from
("High Hill") in Jingdezhen, Jiangxi province, China.[5] The name entered English in 1727 from the French version of the word: "kaolin."[6]

Kaolinite has a low shrink-swell capacity and a low cation exchange capacity (1-15 meq/100g.) It is a soft, earthy, usually white mineral (dioctahedral phyllosilicate clay), produced by the chemical weathering of aluminium silicate minerals like feldspar. In many parts of the world, it is colored pink-orange-red by iron oxide, giving it a distinct rust hue. Lighter concentrations yield white, yellow or light orange colours. Alternating layers are sometimes found, as at Providence Canyon State Park in Georgia, USA.

Structural transformationsEditar sección

Kaolin-type clays undergo a series of phase transformations upon thermal treatment in air at atmospheric pressure. Endothermic dehydroxylation (or alternatively, dehydration) begins at 550-600 °C to produce disordered metakaolin, Al2Si2O7, but continuous hydroxyl loss (-OH) is observed up to 900 °C and has been attributed to gradual oxolation of the metakaolin.[7] Because of historic disagreement concerning the nature of the metakaolin phase, extensive research has led to general consensus that metakaolin is not a simple mixture of amorphous silica (SiO2) and alumina (Al2O3), but rather a complex amorphous structure that retains some longer-range order (but not strictly crystalline) due to stacking of its hexagonal layers.[7]

2 Al2Si2O5(OH)4 → 2 Al2Si2O7 + 4 H2O

Further heating to 925-950 °C converts metakaolin to a defect aluminium-silicon spinel, Si3Al4O12, which is sometimes also referred to as a gamma-alumina type structure:

2 Al2Si2O7 → Si3Al4O12 + SiO2

Upon calcination to ~1050 °C, the spinel phase (Si3Al4O12) nucleates and transforms to mullite, 3 Al2O3 · 2 SiO2, and highly crystalline cristobalite, SiO2:

3 Si3Al4O12 → 2 Si2Al6O13 + 5 SiO2

OccurrenceEditar sección


A kaolin mine in Ruse Province, Bulgaria

Kaolinite is one of the most common minerals; it is mined, as kaolin, in Brazil, Bulgaria, France, United Kingdom, Iran,[8] Germany, India, Australia, Korea, the People's Republic of China, the Czech Republic and the United States.

Predominance in tropical soilsEditar sección

Kaolinite clay occurs in abundance in soils that have formed from the chemical weathering of rocks in hot, moist climates - for example in tropical rainforest areas. Comparing soils along a gradient towards progressively cooler or drier climates, the proportion of kaolonite decreases, while the proportion of other clay minerals such as illite (in cooler climates) or smectite (in drier climates) increases. Such climatically-related differences in clay mineral content are often used to infer changes in climates in the geological past, where ancient soils have been buried and preserved.

UsesEditar sección

Kaolin is used in ceramics, medicine, coated paper, as a food additive, in toothpaste, as a light diffusing material in white incandescent light bulbs, and in cosmetics. It is generally the main component in porcelain.

It is also used in paint to extend titanium dioxide (TiO2) and modify gloss levels; in rubber for semi-reinforcing properties; and in adhesives to modify rheology.[9]

Kaolin was also used in the production of common pipes for centuries in Europe and Asia.

The largest use is in the production of paper, including ensuring the gloss on some grades of paper. Commercial grades of kaolin are supplied and transported as dry powder, semi-dry noodle or as liquid slurry.

Kaolinite can contain very small traces of uranium and thorium, and is therefore useful in radiological dating. While a single magazine made using kaolin does not contain enough radioactive material to be detected by a security-oriented monitor, this does result in truckloads of high end glossy paper occasionally tripping an overly-sensitive radiation monitor.[10] [11] [12]

Kaolinite has also seen some use in organic farming, as a spray applied to crops to deter insect damage, and in the case of apples, to prevent sun scald.

In April 2008, the US Naval Medical Research Center announced the successful use of a Kaolinite-derived aluminosilicate nanoparticle infusion in traditional gauze, known commercially as QuikClot Combat Gauze.[13]

When heated to between 650 and 900 °C kaolinite dehydroxylates to form metakaolin. According to the American National Precast Concrete Association this is a supplementary cementitious material (SCM). When added to a concrete mix, metakaolin affects the acceleration of Portland cement hydration when replacing Portland cement by 20 percent by weight.

In ceramics applications, the formula is typically written in terms of oxides, thus the formula for kaolinite is:

Al2O3 ▪ 2(SiO2) ▪ 2(H2O)

This format is also useful for describing the firing process of clay as the kaolinite loses the 2 water molecules, termed the chemical water, when fired to a high enough temperature. This is different from clay's physical water which will be lost simply due to evaporation and is not a part of the chemical formula.

Medicinal and culinary usesEditar sección

A folk medicine use is to soothe an upset stomach, similar to the way parrots (and later, humans) in South America originally used it.[14]

Kaolin is, or has been, used as the active substance in liquid anti-diarrhea medicines such as Kaomagma and Kaopectate. Such medicines were changed away from aluminium substances due to a scare over Alzheimer's disease[citation needed], but have since changed back to compounds containing aluminium as they are more effective.

Kaolin is known in traditional Chinese medicine by the name chìshízhī (赤石脂),[citation needed] literally "crimson stone resin".

In Africa it is used for facial masks or soap[15] and is eaten for pleasure or to suppress hunger, a practice known as geophagy.[16] Consumption is greater among women, especially during pregnancy.[17]

This practice is also seen among African-American women in the Southern United States, especially Georgia.[18] There, the kaolin is called white dirt, chalk or white clay.[18]

See alsoEditar sección


Kaolin. (unknown scale)

ReferencesEditar sección

BibliographyEditar sección

NotesEditar sección

  1. Kaolinite mineral information and data. Retrieved on 2009-08-05.
  2. Kaolinite Mineral Data. Retrieved on 2009-08-05.
  3. Handbook of Mineralogy
  4. Deer, W.A.; Howie, R.A.; Zussman, J. (1992). An introduction to the rock-forming minerals (2 ed.). Harlow: Longman. ISBN 0582300940. 
  5. Schroeder, Paul (2003-12-12). "Kaolin". New Georgia Encyclopedia. Retrieved 2008-08-01. 
  7. 7,0 7,1 Bellotto, M., Gualtieri, A., Artioli, G., and Clark, S.M. (1995). "Kinetic study of the kaolinite-mullite reaction sequence. Part I: kaolinite dehydroxylation". Phys. Chem. Minerals 22: 207–214. 
  9. Imerys Performance Minerals: Kaolin (China Clay). Retrieved on 2008-08-01.
  13. Rowe, Aaron. Nanoparticles Help Gauze Stop Gushing Wounds. Retrieved on 2009-08-05.
  14. Diamond, Jared M.. Evolutionary Biology: Dirty eating for healthy living. 400. Nature. pp. 120–121. 
  15. "Secrets et rituels des femmes camerounaises." (Secrets and rituals of women in Cameroon) at Gennybeauté.com ISO 639 Icon fr
  16. Franklin Kamtche. "Balengou : autour des mines." (Balengou : around the mines) Le Jour. 12 January 2010. ISO 639 Icon fr
  17. Gerald N. Callahan. "Eating Dirt." Emerging Infectious Diseases. 9.8 (August 2003).
  18. 18,0 18,1 R. Kevin Grigsby "Clay Eating." New Georgia Encyclopedia. 3 February 2004.

External linksEditar sección

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