Industrial Preparation
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Boron nitride

Industrial Preparation
Product Name
Boron nitride
CAS No.
10043-11-5
Chemical Name
Boron nitride
Synonyms
Boron nitrite;Hexagonal boron nitride;BNNT;boron mononi;Nitriloboron;Cubic Boron nitride;BORON NITRIDE NANOTUBE;Boron nitride,hexagonal;Boron nitride nanopowder, APS 5-20nm;BN C
CBNumber
CB9266197
Molecular Formula
BN
Formula Weight
24.82
MOL File
10043-11-5.mol
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Boron nitride Property

Melting point:
2700℃
Boiling point:
sublimes sl below 3000℃ [MER06]
Density 
0.9-1.1 g/mL at 25 °C
storage temp. 
no restrictions.
solubility 
insoluble in H2O, acid solutions
form 
Powder
Specific Gravity
3.48
color 
White
PH
5-8 (100g/l, H2O, 20℃)(slurry)
Resistivity
10*19 (ρ/μΩ.cm)
Water Solubility 
Soluble in water (slightly soluble) at 20°C, and water (soluble) at 95°C.
Sensitive 
Hygroscopic
Crystal Structure
Hexagonal
Merck 
14,1346
Stability:
Stable. Incompatible with oxidizing agents, water.
CAS DataBase Reference
10043-11-5(CAS DataBase Reference)
NIST Chemistry Reference
Boron nitride(10043-11-5)
EPA Substance Registry System
Boron nitride (BN) (10043-11-5)
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Safety

Hazard Codes 
Xi
Risk Statements 
36/37
Safety Statements 
26-36
RIDADR 
UN1950
WGK Germany 
3
RTECS 
ED7800000
TSCA 
Yes
HS Code 
2850 00 20
HazardClass 
2.1
Toxicity
LD50 orally in Rabbit: > 2000 mg/kg LD50 dermal Rat > 2000 mg/kg
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Hazard and Precautionary Statements (GHS)

Symbol(GHS)
Signal word
Danger
Hazard statements

H226Flammable liquid and vapour

H315Causes skin irritation

H318Causes serious eye damage

H335May cause respiratory irritation

Precautionary statements

P210Keep away from heat/sparks/open flames/hot surfaces. — No smoking.

P233Keep container tightly closed.

P240Ground/bond container and receiving equipment.

P280Wear protective gloves/protective clothing/eye protection/face protection.

P303+P361+P353IF ON SKIN (or hair): Remove/Take off Immediately all contaminated clothing. Rinse SKIN with water/shower.

P305+P351+P338IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses, if present and easy to do. Continuerinsing.

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N-Bromosuccinimide Price

Sigma-Aldrich
Product number
GF92332100
Product name
Boron nitride
Purity
sheet, size 25 × 25?mm, thickness 4.0?mm, condition hot-pressed
Packaging
1EA
Price
$587
Updated
2024/03/01
Sigma-Aldrich
Product number
GF70504602
Product name
Boron nitride
Purity
rod, length 200 mm, 20?mm diameter, condition hot-pressed
Packaging
1EA
Price
$1680
Updated
2024/03/01
Sigma-Aldrich
Product number
GF54207503
Product name
Boron nitride
Purity
sheet, thickness 2.0?mm, size 25 × 25?mm, condition hot-pressed
Packaging
1EA
Price
$391
Updated
2024/03/01
Sigma-Aldrich
Product number
GF43305498
Product name
Boron nitride
Purity
rod, 9.0?mm diameter, length 100 mm, condition hot-pressed
Packaging
1EA
Price
$532
Updated
2024/03/01
Sigma-Aldrich
Product number
GF43107678
Product name
Boron nitride
Purity
rod, 12.7?mm diameter, length 200 mm, condition hot-pressed
Packaging
1EA
Price
$997
Updated
2024/03/01
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Boron nitride Chemical Properties,Usage,Production

Industrial Preparation

Cubic BN, or borazon, is produced by subjecting hexagonal BN to extreme pressure and heat in a process similar to that used to produce synthetic diamonds. Melting of either phase is possible only with a high nitrogen overpressure. The alpha-phase decomposes above 2700°C at atmospheric pressure and at ca. 1980°C in a vacuum.
Hexagonal BN is manufactured using hot pressing or pyrolytic deposition techniques. These processes cause orientation of the hexagonal crystals, resulting in varying degrees of anisotropy. There is one pyrolytic technique that forms a random crystal orientation and an isotropic body; however, the density reaches only 50 to 60% of the theoretical density. Both manufacturing processes yield high purity, usually greater than 99 wt.% BN. The major impurity in the hot-pressed materials is boric oxide, which tends to hydrolyze in the presence of water, degrading the dielectric and thermal-shock properties of the material. The addition of calcia reduces the water absorption. Hexagonal hot-pressed BN is available in a variety of sizes and shapes, while the pyrolytic hexagonal material is currently available in thin layers only.

Description

Boron nitride is a material in which the extra electron of nitrogen (with respect to carbon) enables it to form structures that are isoelectronic with carbon allotropes.
Boron nitride is an inorganic compound with a flat, hexagonal crystal similar to graphite, but with the carbon atoms replaced by boron and nitrogen atoms. The alternate boron and nitrogen atoms are linked to form interlocking hexagonal rings with three boron atoms and three nitrogen atoms, and the layers are held together by van der Waals forces. There is no boron-nitrogen bonding between the layers.The bond length is 1.466Å and the interlayer spacing is 3.331 Å. A spherical form (with a hexagonal crystal structure) is also available.

Boron nitride can also be in cubic form in which alternately linked boron and nitrogen atoms form a tetrahedral bond network, similar to carbon atoms in diamond.

Chemical Properties

white powder(s), 1μm or less 99.5% pure; hexagonal, most common form: a=0.2504 nm, c=0.6661nm; fcc: a=0.3615nm; hardness: hexagonal like graphite,?cub approaches that of diamond; band gap ~7.5 eV at 300K; dielectric 7.1; used in furnace insulation and in crucibles for melting aluminum, boron, iron, and silicon, also as sputtering target for dielectrics, diffusion masks, passivation layers [KIR81] [HAW93] [MER06] [CER91]

Physical properties

Insulator (Eg=7.5 eV). Crucibles for melting molten metals such as Na, B, Fe, Ni, Al, Si, Cu, Mg, Zn, In, Bi, Rb, Cd, Ge, and Sn. Corroded by molten metals U, Pt, V, Ce, Be, Mo, Mn, Cr, V, and Al. Attacked by molten salts PbO2, Sb2O3, AsO3, Bi2O3, KOH, and K2CO3. Used in furnace insulation-diffusion masks and passivation layers.

Physical properties

White powder, hexagonal graphite-like form or cubic crystal; cubic form similar to diamond in its crystal structure, and reverts to graphite form when heated above 1,700°C; density 2.18 g/cm3; melts at 2,975°C (under nitrogen pressure); sublimes at 2,500°C at atmospheric pressure; insoluble in water and acid; attacked by hot alkalies and fused alkali carbonates; not wetted by most molten metals or glasses.
Cubic boron nitride (c-BN) does not exist in nature but it is a novel substance created by human. It is synthesized under high pressure and high temperature just like diamond counterpart and has the wurzite crystal structure. The tables below compare reference hardness and heat conductivity for a couple of abrasive materials. Apparently c-BN is excellent in these properties, second only to diamond, the highest.

Substance Hardness VHN (Vickers) Heat Conductivity (W/(m.K))
diamond 8600 1000 - 2000
c-BN 5000 590
alumina 2300 6
tungsten carbide 1800 42
silicon carbide 800 85
titanium nitride 2100 7.4
titanium carbide 3000 5.2
www.tomeidiamond.co.jp

Uses

boron nitride is a synthetically manufactured white, talc-like powder that can reflect light, giving a product a sparkle effect. It is primarily used in color cosmetics to provide subtle shimmer; however, it can also be found in skin care formulations for enhancing product smoothness and slip.

Uses

Boron nitride is a material in which the extra electron of nitrogen (with respect to carbon) enables it to form structures that are isoelectronic with carbon allotropes. Also used in manufacture of alloys; in semiconductors, nuclear reactors, lubricants.
Hexagonal boron nitride can be used as an electrical insulator; as thermocouple protection sheaths, crucibles and linings for reaction vessels; and as a coating for refractory molds used in glass forming and in superplastic forming of titanium. It can also be incorporated in ceramics, alloys, resins, plastics, and rubber to give them self-lubricating properties. Hexagonal boron nitride is used the formulation of coatings and paints for high temperature applications. It is also used as a substrate for semi-conductors, lens coatings, and transparent windows.
https://www.cir-safety.org

Uses

Boron nitride used in the manufacture of high-temperature equipment parts due to its excellent thermal and chemical stability. It is used as a lubricant and an additive to cosmetics, paints, dental cements and pencil leads. It is also used to provide self lubricating properties to ceramics, alloys, resins, plastics and rubbers. In addition to this, it has many industrial applications such as xerographic process, laser printers, oxygen sensors and proton conductors. Cubic boron nitride is used as an abrasive material.

Production Methods

In tonnage production, acetaldehyde may be manufactured by:
1. The direct oxidation of ethylene, requiring a catalytic solution of copper chloride plus small quantities of palladium chloride Cl2Pd.
2. The oxidation of ethyl alcohol C2H6O with sodium dichromate Cr2Na2O7, and
3. The dry distillation of calcium acetate C4H6CaO4 with calcium formate C2H2CaO4.

Application

Boron nitride finds applications in shaping tools in industries due to its ability to withstand temperatures greater than 2,000°C. Cutting tools and abrasive components, designed specifically for use with low-carbon ferrous metals, have been developed using cubic boron nitride. These tools perform similarly to polycrystalline diamond (PCD) tools but can be utilized on iron and low-carbon alloys without the risk of a reaction occurring.

Definition

boron nitride: A solid, BN, insolublein cold water and slowly decomposedby hot water; r.d. 2.25 (hexagonal);sublimes above 3000°C. Boronnitride is manufactured by heatingboron oxide to 800°C on an acid-solublecarrier, such as calcium phosphate,in the presence of nitrogen orammonia. It is isoelectronic with carbonand, like carbon, it has a veryhard cubic form (borazon) and asofter hexagonal form; unlikegraphite this is a nonconductor. It isused in the electrical industrieswhere its high thermal conductivityand high resistance are of especialvalue.

Preparation

Boron nitride is prepared by heating boric oxide with ammonia:
B2O3 + 2NH3 → 2BN + 3H2O
Alternatively, the compound can be prepared by heating boric oxide or boric acid with ammonium chloride or an alkali metal cyanide. Purified product can be obtained by high temperature reaction of boron halide with ammonia:
BCl3 + NH3 → BN + 3HCl
Boron nitride can also be made from the elements by heating boron and nitrogen at red heat.

General Description

Boron nitride in cubic form, known as Borazon, is a manufactured abrasive that was discovered by General Electric Co. Laboratories in 1957. Unlike manufactured diamond, Borazon does not have a natural counterpart. It is produced under temperatures and pressures similar to those required for diamond manufacture. Additionally, cubic boron nitride exhibits greater thermal stability compared to diamond. It remains stable at temperatures exceeding 1,371°C, while diamond reverts to graphite at temperatures above 816°C. Borazon has a Knoop hardness (K100) of 7800, which is higher than ordinary abrasives but lower than diamond.

Industrial uses

Boron nitride (BN) has many potential commercial applications. It is a white, fluffy powder with a greasy feel. It is used for heat-resistant parts by molding and pressing the powder without a binder to a specific gravity of 2.1 to 2.25.
BN may be prepared in a variety of ways, for example, by the reaction of boron oxide with ammonia, alkali cyanides, and ammonium chloride, or of boron halides and ammonia. The usually high chemical and thermal stability, combined with the high electrical resistance of BN, suggests numerous uses for this compound in the field of high-temperature technology. BN can be hot-pressed into molds and worked into desired shapes.
BN powders can be used as mold-release agents, high-temperature lubricants, and additives in oils, rubbers, and epoxies to improve thermal conductance of dielectric compounds. Powders also are used in metal- and ceramicmatrix composites (MMC and CMC) to improve thermal shock and to modify wetting characteristics.
The platy habit of the particles and the fact that boron nitride is not wet by glass favors use of the powder as a mold wash, e.g., in the fabrication of high-tension insulators. It is also useful as thermal insulation in induction heating. A cubic form of boron nitride (Borazon) similar to diamond in hardness and structure has been synthesized by the high-temperature, high-pressure process for making synthetic diamonds. Any uses it may find as a substitute for diamonds will depend on its greatly superior oxidation resistance.

Industrial uses

The major industrial applications of hexagonal boron nitride rely on its high thermal conductivity, excellent dielectric properties, self-lubrication, chemical inertness, nontoxicity, and ease of machining. These are, for instance, mold wash for releasing molds, high-temperature lubricants, insulating filler material in composite materials, as an additive in silicone oils and synthetic resins, as filler for tubular heaters, and in neutron absorbers. On the other hand, the industrial applications of cubic boron nitride rely on its high hardness and are mainly as abrasives.

Forms and nomenclature

Boron nitride exists as three different poly-morphs:
Alpha-boron nitride (α-BN), a soft and ductile polymorph (ρ = 2280 kg.m–3 and m.p. = 2700°C) with a hexagonal crystal lattice similar to that of graphite, also called hexagonal boron nitride (HBN) or white graphite;
Beta-boron nitride (β-BN), the hardest manmade material and densest polymorph (ρ = 3480 kg.m–3, m.p. = 3027°C), with a cubic crystal lattice similar to that of diamond, also called cubic boron nitride (CBN) or borazon;
Pyrolitic boron nitride (PBN). From a chemical point of view, boron nitride oxidizes readily in air at temperatures above 1100°C, forming a thing protective layer of boric acid (H3BO3) on its surface that prevents further oxidation as long as it coats the material. Boron nitride is stable in reducing atmospheres up to 1500°C.

Boron nitride Preparation Products And Raw materials

Raw materials

Preparation Products

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Boron nitride Suppliers

Ningbo Luofei Nanotechnology Co. , Ltd.
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400-8809926 18958272021
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2943541784@qq.com
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China
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Nanjing XFNano Material Tech Co., Ltd
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025-68256996 15261867733
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sale@xfnano.com
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Shanghai Worldyang Chemical Co.,Ltd.
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021-021-56795766
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+86-21-56795266
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sales@worldyachem.com
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China
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Yingkou Tianyuan Chemical Research Institute Co., Ltd.
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17722431616 17722431616
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840117205@qq.com
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ZHEJIANG YAMEI NANO TECHNOLOGY CO., LTD.
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400-8200386 13456373028
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0573-84615678
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2533928531@qq.com
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Shanghai Yaotian New Material Technology Co., LTD
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021-64110338 18939791287
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2953588414@qq.com
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BROFOS NANOTECHNOLOGY(NINGBO)CO ,LTD.
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0574-62615397 17757424292
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brofosnano@foxmail.com
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Shanghai Xiao Huang Nanotechnology Co. , Ltd.
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021-34781353 17702143778
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Shanghai Yunfu Nano Technology Co., LTD
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15796584478; 15796584478
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J & K SCIENTIFIC LTD.
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010-82848833 400-666-7788
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jkinfo@jkchemical.com
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View Lastest Price from Boron nitride manufacturers

Hebei Zhuanglai Chemical Trading Co.,Ltd
Product
Boron Nitride 10043-11-5
Price
US $120.00/kg
Min. Order
1kg
Purity
99%
Supply Ability
10ton
Release date
2024-05-21
Hebei Chuanghai Biotechnology Co,.LTD
Product
Boron nitride 10043-11-5
Price
US $100.00-50.00/KG
Min. Order
1KG
Purity
99%
Supply Ability
10000kg
Release date
2024-08-20
Shaanxi Dideu Medichem Co. Ltd
Product
Boron nitride 10043-11-5
Price
US $0.10/KG
Min. Order
1KG
Purity
99.0%
Supply Ability
1000Tons
Release date
2024-08-04

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