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DIAMOND

Product Name
DIAMOND
Chemical Name
DIAMOND
Synonyms
DIAMOND;Diamond powder, Natural;Diamond powder, Synthetic;Diamond powder, synthetic, <1 micron, 99.9% (metals basis);Diamond powder, natural, 40-60 micron, 99.9% (metals basis);Diamond powder, synthetic, 40-60 micron, 99.9% (metals basis)
CBNumber
CB8686455
Formula Weight
0
MOL File
Mol file
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DIAMOND Property

Density 
3.5 g/mL at 25 °C(lit.)
form 
synthetic polycrystalline powder
color 
Clear, Impurities (i.e. Nitrogen) and irradiation can change color to yellow, green, blue, pink, or brown.
Crystal Structure
Cubic, Diamond - Space Group Fd3m
Merck 
14,2987
Dielectric constant
5.5(Ambient)
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Safety

WGK Germany 
-
RTECS 
HL4158550
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Hazard and Precautionary Statements (GHS)

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N-Bromosuccinimide Price

Alfa Aesar
Product number
013401
Product name
Diamond powder, synthetic, <1 micron, 99.9% (metals basis)
Packaging
1g
Price
$60.1
Updated
2021/12/16
Alfa Aesar
Product number
013401
Product name
Diamond powder, synthetic, <1 micron, 99.9% (metals basis)
Packaging
5g
Price
$221
Updated
2021/12/16
Alfa Aesar
Product number
038984
Product name
Diamond powder, natural, 40-60 micron, 99.9% (metals basis)
Packaging
1g
Price
$99
Updated
2023/06/20
Alfa Aesar
Product number
038984
Product name
Diamond powder, natural, 40-60 micron, 99.9% (metals basis)
Packaging
5g
Price
$341
Updated
2023/06/20
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DIAMOND Chemical Properties,Usage,Production

Chemical Properties

Diamond transforms to graphite when heated at 2000℃ in vacuum and transforms to CO2 at 710–900℃ in air.

Physical properties

The space lattice of a diamond belongs to the cubic system, and its diamond structure has a lattice constant of a=0.3560 nm and a cleavage plane of 111.
Diamond is classified optically as Type I and Type II. Type I shows the absorption bands at 8 and 20.8 mm by the impurities other than the 5 mm absorption band. On the other hand, Type II shows the 5 mm absorption band only. The transmittance of Type II is T=60% for wavelengths longer than 6 mm. There is no other material that shows such an optical property.

Uses

Diamond is excellent as a transmission window because it has no absorption in the infrared and farinfrared region. However, large diamond pieces are difficult to obtain, and they are used as a special window (i.e., a window of a Golay cell).

Definition

An allotrope of CARBON. It is the hardest naturally occurring substance and is used for jewelry and, industrially, for cutting and drilling equipment. Each carbon atom is surrounded by four equally spaced carbon atoms arranged tetrahedrally. The carbon atoms form a three-dimensional network with each carbon–carbon bond equal to 0.154 nm and at an angle of 109.5° with its neighbors. In diamonds millions of atoms are covalently bonded to form a giant molecular structure, the great strength of which results from the strong covalent bonds. Diamonds can be formed synthetically from graphite in the presence of a catalyst and under extreme temperature and pressure; although small, such diamonds are of adequate size for many industrial uses.

Definition

diamond: The hardest known mineral(with a hardness of 10 on Mohs’scale). It is an allotropic form of purecarbon that has crystallized in thecubic system, usually as octahedra orcubes, under great pressure. Diamondcrystals may be colourless andtransparent or yellow, brown, orblack. They are highly prized as gemstonesbut also have extensive usesin industry, mainly for cutting andgrinding tools. Diamonds occur in ancientvolcanic pipes of kimberlite;the most important deposits are inSouth Africa but others are found inTanzania, the USA, Russia, and Australia.Diamonds also occur in riverdeposits that have been derived fromweathered kimberlite, notably inBrazil, Za?re, Sierra Leone, and India.Industrial diamonds are increasinglybeing produced synthetically.

Production Methods

Diamond is produced with so called, diamond luster, and is white or transparent. But sometimes yellow, red, orange, green, blue, brown, and black colored diamond exists. Black diamond is called carbonad. The diamond from Kimberley, a major mining source, is called Kimberlite. Recently, diamond has been fabricated under high temperature and pressure, but it is not as large and is used only for abrasives.

Industrial uses

Diamond is the cubic crystalline form of carbon.When pure, diamond is water clear, butimpurities add shades of opaqueness including black. It is the hardest natural material with ahardness on the Knoop scale ranging from 5500to 7000. It will scratch and be scratched by thehardest anthropogenic material Borozon. It hasa specific gravity of 3.5. Diamond has a meltingpoint of around 3871°C, at which point it willgraphitize and then vaporize. Diamonds aregenerally electrical insulators and nonmagnetic.Synthetic diamonds are produced from graphiteat extremely high pressures (5444 to 12,359.9MPa) and temperatures from 1204 to 2427°C.They are up to 0.01 carat in size and are comparableto the quality of industrial diamonds.In powder form they are used in cutting wheels.Of all diamonds mined, about 80% by weightare used in industry. Roughly 45% of the totalindustrial use is in grinding wheels. Tests haveshown that under many conditions syntheticdiamonds are better than mined diamonds inthis application.

DIAMOND Preparation Products And Raw materials

Raw materials

Preparation Products

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DIAMOND Suppliers

VWR International
Tel
--
Fax
--
Email
solutions@vwr.com
Country
United Kingdom
ProdList
6548
Advantage
82

DIAMONDRelated Search:


  • DIAMOND
  • Diamond powder, synthetic, 40-60 micron, 99.9% (metals basis)
  • Diamond powder, natural, 40-60 micron, 99.9% (metals basis)
  • Diamond powder, synthetic, <1 micron, 99.9% (metals basis)
  • Diamond powder, Natural
  • Diamond powder, Synthetic