High Purity Beryllium Nitride Be3N2 Powder CAS 1304-54-7, 99.99%
Description of Beryllium Nickel Be3N2 Powder:
Structure:
The crystal structure of beryllium nitride is similar to that of sodium chloride and belongs to the cubic crystal system. In beryllium nitride, each beryllium atom forms a tetrahedral coordination with four nitrogen atoms, while each nitrogen atom forms a tetrahedral coordination with two beryllium atoms. In this structure, there is an empty tetrahedral gap around each nitrogen atom, which gives beryllium nitride a high hardness.
Physical properties:
Beryllium nitride is a white solid with a high melting point and hardness. Its density is higher than expected, mainly due to the tight bond between nitrogen and beryllium atoms. In addition, beryllium nitride has good thermal conductivity and thermal shock resistance.
Chemical properties:
Beryllium nitride does not react with water, acids, or bases at room temperature. However, under high-temperature conditions, beryllium nitride can react with certain metallic elements (such as aluminum, iron, etc.) to form intermetallic compounds. In addition, beryllium nitride can react with carbon at high temperatures to form beryllium carbide and nitrogen.
Preparation method:
Beryllium nitride can be prepared by reacting beryllium metal with ammonia gas at high temperatures, and the resulting beryllium nitride is deposited on the wall of the reaction vessel. Another preparation method is to react beryllium metal with nitrogen at high temperatures to produce beryllium nitride and hydrogen.
Application field:
Beryllium nitride has been widely used in many fields. It is used as an additive in ceramic materials to improve the hardness and thermal shock resistance of ceramics. In addition, beryllium nitride can also be used as a protective gas in metal smelting and as an ion implantation source material.
Environmental impact:
In the environment, beryllium nitride does not easily break down or release harmful substances, so it has less impact on the environment. However, due to its toxicity, environmental pollution should be reduced as much as possible when handling and using beryllium nitride.
Beryllium Nitride (Be3N2) Powder Supplier
Trunnano supplies high quality Be3N2 powder at a reasonable price. Customers can have their beryllium nutride powder customized according to the specifications of their equipment.
Below are the details of our beryllium-nitride technique:
Part name
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Powder High Purity Beryllium Nickeltride
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MF
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Be3N2
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Purity
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99.99%
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Particle size
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-100 Mesh
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Application
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Powdered beryllium trioxide, Be3N2, is used to make special ceramics and in high-temperature materials.
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Production Method of Beryllium Nitride Be3N2 Powder:Direct nitriding method:
Direct nitriding is one of the standard methods for producing beryllium nitride. Beryllium nitride is made by the immediate reaction of beryllium powder with nitrogen at high temperatures. The specific reaction conditions and process parameters will vary according to different preparation methods and equipment. Usually, the reaction needs to be carried out under high temperature and pressure conditions, so specialized equipment needs to be used to meet these conditions. In addition, to obtain high-purity beryllium nitride, subsequent purification and refining processes are required.
The advantage of direct nitriding is that the process is relatively simple, and a higher yield can be obtained. However, this method also comes at a high cost because of the large amount of nitrogen used and the high equipment and process requirements. In addition, due to the relatively harsh reaction conditions, it is necessary to control the reaction conditions and parameters strictly. Otherwise, the quality and purity of beryllium nitride may be affected.
In the direct nitriding process, beryllium nitride can be prepared using the following steps:
(1) Mix beryllium powder and nitrogen and heat to high temperature;
(2) Reaction at high temperature for some time so that beryllium powder and nitrogen fully react;
(3) Cooling to room temperature to obtain beryllium nitride product.
It should be noted that during the heating process, parameters such as temperature and pressure should be strictly controlled to ensure that the reaction can proceed smoothly and obtain high-quality beryllium nitride. In addition, in the subsequent purification and refining process, attention should also be paid to controlling process parameters to ensure the purity and quality of beryllium nitride.
Thermal decomposition method:
Thermal decomposition is another method of producing beryllium nitride. The technique is to thermal decompose compounds containing nitrogen and beryllium elements (such as beryllium nitrate, cyanide, etc.) at high temperatures to produce beryllium nitride. The specific reaction conditions and process parameters will vary for different compounds and equipment. Usually, the reaction needs to be carried out under a high-temperature vacuum, so specialized equipment is required to meet these conditions. In addition, to obtain high-purity beryllium nitride, subsequent purification and refining processes are needed.
The advantage of the thermal decomposition method is that high-purity beryllium nitride can be obtained, and the shape and size of beryllium nitride can be controlled by controlling the conditions and parameters of thermal decomposition. However, this method also has some disadvantages, such as the need for subsequent heat treatment and annealing treatment and other processes and high requirements for equipment and technology.
In the thermal decomposition process, beryllium nitride can be prepared using the following steps:
(1) The compounds containing nitrogen and beryllium are heated;
(2) Reaction at high temperature for some time so that the compound thermal decomposition;
(3) After subsequent heat treatment and annealing treatment, beryllium nitride is obtained.
It should be noted that during the heating process, parameters such as temperature and pressure should be strictly controlled to ensure that the reaction can proceed smoothly and obtain high-quality beryllium nitride. In addition, when conducting subsequent process treatments such as heat treatment and annealing treatment, attention should also be paid to controlling process parameters to ensure the stability and quality of beryllium nitride.
Application of Beryllium Nitride Be3N2 Powder:
Electronic field:
As an excellent electron transport material, it can be used to manufacture electronic transmission materials in integrated circuit chips, improving the performance and stability of integrated circuits. In addition, beryllium nitride can also be used in the manufacture of transistors and other electronic components for the manufacture of highly reliable, high-performance electronic devices.
Energy sector:
In the energy field, beryllium nitride is used as a harmful electrode material for lithium batteries and a fuel cell electrode material. At the same time, beryllium nitride has good oxidation resistance and stability as an electrode material in fuel cells, which makes fuel cells have higher power generation efficiency and reliability. These applications can provide more efficient and environmentally friendly solutions for the energy industry.
Aerospace field:
In the aerospace field, beryllium nitride has excellent high-temperature properties and mechanical stability and is used to manufacture high-temperature structural parts and aircraft engine components. In addition, beryllium nitride can also be used to manufacture components of aircraft engines, such as combustion chambers and turbine blades, which can improve the performance and reliability of aircraft engines.
Mechanical field:
Beryllium nitride is also widely used in the field of machinery. As a high-strength, high-hardness material, beryllium nitride is used to manufacture high-strength, wear-resistant, corrosion-resistant mechanical parts. In addition, beryllium nitride can also be used as a cutting tool material, such as high-speed cutting tools and drills, which can improve the efficiency and accuracy of mechanical processing.
Chemical Industry:
It has a large specific surface area and active center, which can provide good catalytic activity. In addition, beryllium nitride can also be used as an ion exchanger and adsorbent material for separating and purifying chemicals.
Biomedical field:
In recent years, the application of beryllium nitride in the biomedical field has gradually received attention. Studies have shown that beryllium nitride has good biocompatibility and biocorrosion resistance and can be used in the biomedical field of complex tissue repair and replacement materials, such as teeth and bones. In addition, beryllium nitride can also be used as a drug carrier and drug-release material to achieve drug-directed delivery and slow release. These applications provide new therapeutic methods and means for the biomedical field.
Shipping Beryllium Nitride Be3N2 Powder:
Many types of packing are available depending on the amount beryllium nutride Be3N2 powder.
Packing of Be3N2 Beryllium nitride powder
You can vacuum pack 1kg/bag, 25kg/barrel or according to your requirements.
Powder shipping of Beryllium Nitride Be3N2
Could be sent out by sea, air or express once payment has been received.
Beryllium Nitride Be3N2 Powder Properties
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Other Titles
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Triberyllium nitride, Beryllium Nitride, Be3N2 Powder
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1304-54-7
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Compound Formula
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Be3N2
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Molecular Weight
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55.0499
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Appearance
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Powder in yellow and white
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Melting Point
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2200 degC
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Solubility In Water
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N/A
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Density
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2.71 g/cm3
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Purity
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99.90%
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Particle Size
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-100 Mesh
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Boling Point
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2240 degC (decomposes)
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Specific Heat
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N/A
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Thermo Conductivity
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N/A
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Thermal Expansion
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N/A
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Young's Module
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N/A
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Exact Weight
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N/A
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Monoisotopic
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N/A
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Safety & Health Information
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Safety Notice
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N/A
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Hazard Statements
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N/A
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Flashing Point
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N/A
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Hazard Codes
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N/A
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Risk Codes
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N/A
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Safety statements
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N/A
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RTECS #
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N/A
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Transport Information
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N/A
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Germany
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N/A
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