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Muscovite

CAS：12001-26-2
MW:256.239
MF：Al2K2O6Si

Muscovite, with the chemical formula KAl2(AlSi3O10)(OH)2 and CAS registry number 12001-26-2, is a common phyllosilicate mineral. It is a member of the mica group and is known for its characteristic pearly luster and perfect cleavage. Muscovite is typically colorless or pale in color, but can also be found in shades of brown, green, or pink. It has a monoclinic crystal structure and a Mohs hardness of 2.5-3. Muscovite is widely used in various industries, including ceramics, cosmetics, and electrical insulation. It is also an important component of some igneous and metamorphic rocks. Muscovite is known for its excellent electrical and thermal insulation properties, as well as its resistance to heat and chemicals. It is often used as a filler in plastics, rubber, and paints, as well as a reinforcing agent in composites. Muscovite is also valued for its use in the production of sparkly or glittery materials, such as cosmetics and decorative items. Overall, Muscovite is a versatile mineral with a wide range of applications in various industries.

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Names and ldentifier
Properties
Use and Manufacturing
Msds
Other Information
Related Questions
Realated Product Infomation

1. Names and Identifiers

1.1 Name: Muscovite

1.2 Synonyms: C.I. 77019; MICA,WATERGROUND; MUSCOVITE; Muscovite potassium; MUSCOVITEMICA; MuscovitepotassiumMICA; POTASSIUM MICA;

1.3 CAS No.: 12001-26-2

1.5 EINECS: 601-648-2

1.6 Molecular Formula: Al2K2O6Si

1.7 Inchi: InChI=1S/2Al.2K.O2Si.4O/c;;;;1-3-2;;;;/q;;2*+1;;;;;-2

1.8 InChkey: YGANSGVIUGARFR-UHFFFAOYSA-N

1.9 Canonical Smiles: [O--].[K+].[K+].O=[Si]=O.O=[Al]O[Al]=O

1.10 Isomers Smiles: [O-2].O=[Al]O[Al]=O.O=[Si]=O.[K+].[K+]

2. Properties

2.1 Odor: Odorless

2.2 Water Solubility: Insoluble (NIOSH, 2022)

3. Use and Manufacturing

3.1 Description

Muscovite, with the chemical formula KAl2(AlSi3O10)(OH)2, has the CAS number 12001-26-2. It is a mineral belonging to the mica group. Muscovite appears as a colorless or pale-colored mineral with a pearly luster. It does not have a distinct odor. Its basic structure consists of layers of aluminum silicate sheets with potassium ions sandwiched between them. Muscovite is insoluble in water and most organic solvents. It is relatively safe to handle, but prolonged exposure to muscovite dust may cause respiratory irritation. Muscovite is not considered to be a hazardous substance.

Applicable Fields

Construction: Muscovite is commonly used in the construction industry as a raw material for making mica sheets. Its purpose in this field involves its ability to provide electrical insulation and heat resistance. The mechanism of action in construction is based on its layered structure, which allows it to be easily split into thin, flexible sheets.

Cosmetics: Muscovite is also used in the cosmetics industry as a mineral pigment. Its purpose in this field involves its ability to add shimmer and sparkle to various cosmetic products. The mechanism of action in cosmetics is purely aesthetic, as muscovite does not have any specific chemical interactions with the skin.

Storage

Conditions: Store in a cool and dry place.

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4. MSDS

2.Hazard identification

2.1 Classification of the substance or mixture

Not classified.

2.2 GHS label elements, including precautionary statements

Pictogram(s)	No symbol.
Signal word	No signal word.
Hazard statement(s)	none
Precautionary statement(s)
Prevention	none
Response	none
Storage	none
Disposal	none

2.3 Other hazards which do not result in classification

none

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5.Other Information

Description: Cosmetic mica, potassium aluminum silicate dehydrate, is refined and ground to particles of ≤150 μm. This material imparts a natural translucence when used up to 20% in formulations of face powder blushes. Mica is available as wet ground (creamy) or as dry ground (matte).

Chemical Properties: Soft, translucent solid; colorless to slightred (ruby), brown to greenish yellow (amber). Noncombustible.Heat resistant to 600C.

Chemical Properties: Mica (muscovite), takes the form of a colorless, odorless solid that separates into flakes or thin sheets of hydrous silicates.

Occurrence: Mica exists in nature in a wide variety of compositions. Muscovite and phlogopite are the only natural micas of commercial importance. Vermiculite, although not considered a true mica by most mineralogists, is a micaceous mineral formed from the weathering of phlogopite or biotite and is also of commercial importance.

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Uses: Mica is a generic term that applies to a wide range of hydrous aluminum silicate minerals characterized by sheet or plant-like structure, and possessing to varying degrees, depending on composition and weathering, flexibility, elasticity, hardness, and the ability to be split into thin (1 μm) sheets.

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Uses: mica is used as a texturizer and coloring agent in cosmetics, it provides a “glimmer” or “shimmering” quality in makeup powders. Mica is the group name for a series of ground silicate minerals with similar physical properties but varied chemical composition. Micas range in color from colorless to pale green, brown, or black.

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Uses: Electrical equipment, vacuum tubes, incan-descent lamps, dusting agent, lubricant, windowsin high-temperature equipment, filler in exteriorpaints, cosmetics, glass and ceramic flux, roofing,rubber, mold-release agent, specialty paper for insu-lation and filtration, wallpaper and wallboard jointcement, oil-well drilling muds.

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Definition: A member of an important group of aluminosilicate minerals that have a characteristic layered structure. The three main types are biotite, lepidolite, and muscovite, which differ in their content of other elements (such as potassium, magnesium, and iron). Mica flakes are used as electrical insulators, dielectrics, and small heat-proof windows.

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Definition: mica: Any of a group of silicate mineralswith a layered structure. Micasare composed of linked SiO₄ tetrahedrawith cations and hydroxyl groupingsbetween the layers. The generalformula is X₂Y_4-6Z₈O₂₀(OH,F)₄, whereX = K,Na,Ca; Y = Al,Mg,Fe,Li; and Z = Si,Al. The three main mica mineralsare:
muscovite, K₂Al₄(Si₆Al₂O₂₀)(OH,F)₄;biotite, K₂(Mg,Fe²⁺)_6-4(Fe³⁺,Al,Ti)_0-2^-(Si_6-5Al_2-3O₂₀)(OH,F)₄;
lepidolite, K₂(Li,Al)_5-6(Si_6-7Al_2-1O₂₀)^-(OH,F)₄.
Micas have perfect basal cleavage andthe thin cleavage flakes are flexibleand elastic. Flakes of mica are used aselectrical insulators and as the dielectricin capacitors.

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Definition: Any of several silicates of vary-ing chemical composition but with similar physicalproperties and crystalline structure. All character-istically cleave into thin sheets that are flexible andelastic. Synthetic mica is available. It has electri-cal and mechanical properties superior to those ofnatural mica; it is also water free.

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Production Methods: Mica is a nonfibrous, natural silicate, found in plate form in nine different species. These materials are hydrous silicates, and the predominant minerals of commerce are muscovite, a hydrous aluminosilicate, and phlogophite, a magnesium silicate. Sheet forms of mica in the form of muscovite have historically been mined by hand from pegmatites.

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General Description: MICA, a generic term, refers to any of a group of approximately 30 silicate minerals occurring as non-fibrous plates. Muscovite (hydrated aluminium potassium silicate[KAl2(AlSi3O10)(F, OH)2 ])and phlogopite (potassium magnesium aluminum silicate hydroxide) are the two major micas of commerce. Micas are commonly found in ordinary rocks. Inhalation of mica dust presents an occupational hazard.

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Reactivity Profile: MICAS have generally low chemical reactivity.

Hazard: (Dust) Irritant by inhalation, may be dam-aging to lungs. Pneumoconiosis.

Health Hazard: Mica dust causes pneumoconiosis.

Agricultural Uses: Biotite is a widely distributed and important rockforming mineral of the mica group. The general term designates all ferro-magnesium micas, also called black mica or magnesium-iron mica. This black and plate-like mineral is found in some igneous rocks, such as granite. It is tetrahedral mica with aluminum substituted for silicon in the tetrahedral sheet, and ferrous (Fe²⁺) or magnesium (Mg²⁺)io ns in the octahedral sheet.
Potassium release occurs more easily with biotite than with muscovite. Biotite is used as the source of soil potassium. It is more easily weathered to chlorite than muscovite and, therefore, is less common in sediments. Although commercially unimportant under hydrothermal conditions, biotite transforms to vermiculite which expands on heating and has widespread application as light-weight concrete, plaster aggregate, insulation, plant growing medium and lubricant.

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Industrial uses: Commercial mica is of two main types: sheet,and scrap or flake. Sheet muscovite is used asa dielectric in capacitors and vacuum tubes inelectronic equipment. Lower-quality muscoviteis used as an insulator in home electrical productssuch as hot plates, toasters, and irons.
Scrap and flake mica is ground for use in coatingson roofing materials and waterproof fabrics,and in paint, wallpaper, joint cement, plastics,cosmetics, well-drilling products, and avariety of agricultural products.For many years, glass-bonded mica hasbeen used in every type of electrical and electronicsystem where the insulation requirementsare preferably low-dissipation factor at high frequencies,a high-insulation resistance anddielectric-breakdown strength, along withextreme dimensional stability. Glass-bondedmicas are made in both machinable grades andprecision-moldable grades. Basically, the materialconsists of natural mica flake bonded witha low-loss electrical glass.
The availability of synthetic mica resultedin the development of so-called ceramoplastics,consisting of high-temperature electricalglass filled with synthetic mica. Ceramoplasticsprovide an increase in the electrical characteristicsover those of natural mica, and, inaddition, are more easily molded and havegreater thermal stability.

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Safety Profile: The dust is injurious to lungs.

Potential Exposure: Mica is used as reinforcing filler for plastics, substitute for asbestos; for insulation in electrical equipment; used in the manufacture of roofing shingles, wallpaper and paint.

Incompatibilities: Silicates react with lithium.

Waste Disposal: Consider recycling, otherwise, this chemical must be disposed of in compliance with existing federal and local regulations. Landfill.

6. Toltal 148 Suppliers View more

Sericite Mica Powder / Fine Grained Muscovite CAS 12001-26-2 for Foundations and Powders

Hebei KuiSheng Trading Co., LTD

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Hebei Danyue Import and Export Co., Ltd

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Hebei Crovell Biotech Co. Ltd

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Amitychem Corporation

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Alfa Chemistry

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7. Related Questions

: If muscovite rocks absorb argon when heated, how do scientists properly date rocks?By not using dating methods that rely on argon, or only using it in situations where the system has not been metamorphized. Seriously, K-Ar or Ar-Ar dating is pretty niche, and only used in very speci..; What is Mica and How is it Used?Mica is a collective term for a group of minerals known as micas, which are aluminum silicates of potassium, aluminum, magnesium, iron, and lithium. They all have a layered structure and belong to the..; What are the applications and properties of mica?Background and Overview[1] Mica is a natural mineral that belongs to the group of aluminum silicate. It can be split into thin, flexible, and elastic sheets with a thickness of 0.01 to 0.03mm. It has ..

8. Realated Product Infomation

muscovite,mixt. with kaolincas:58799-47-6