High Purity Iron Boride FeB Powder CAS 12006-84-7, 99%
Description of Iron Boride FeB Powder :
Iron boride, with the formula FeB, is an inorganic compound. The crystal structure of iron boride is an ionic crystal composed of iron ions and boron ions arranged alternately. This structure makes it have some special physical and chemical properties.
Regarding physical properties, the melting point of iron boride is high, reaching about 1400 ° C, and the hardness is large, showing metal characteristics. It has good electrical and thermal conductivity; its thermal conductivity is lower than copper but higher than aluminum. These properties make it a potential application in manufacturing high-temperature appliances, electronic equipment, and high-temperature measurements and furnaces.
In terms of chemical properties, iron boride has high chemical stability, and it does not react with water and oxygen at normal temperature and pressure. However, it can react at high temperatures with some metals and quasi-metals, such as carbon, silicon, boron, etc. This property gives iron boride a certain application prospect in high-temperature chemical reactions.
In addition, iron boride has certain magnetic properties, which can be magnetized at a certain temperature. This property makes iron boride have certain application potential in magnetic and electromagnetic shielding materials.
Application of Iron Boride FeB Powder :
High-temperature appliances: iron boride has a high melting point and hardness, so it has a certain application potential in high-temperature appliances. For example, it can produce high-temperature electronic components such as high-temperature resistors and high-temperature wires to deal with the shortcomings of general metals that are easy to oxidize at high temperatures.
Electronic equipment: iron boride has good electrical and thermal conductivity, so it has a certain application value in electronic equipment. For example, it can produce electronic components such as high-temperature integrated circuits and transistors to cope with the shortcomings of general metals that are easy to oxidize at high temperatures.
High-temperature measurement: iron boride has a high melting point, hardness, and chemical stability, so it has a certain application value in high-temperature measurement. For example, it can be used to manufacture high-temperature measuring instruments such as high-temperature thermometers and thermocouples to deal with the shortcomings of general metals that are easily oxidized at high temperatures.
Magnetic materials: Iron boride has certain magnetic properties, which makes it have certain application potential in magnetic materials. For example, it can be used to produce magnetic and electromagnetic shielding materials to improve the permeability of materials and their effects.
High-temperature chemical reaction: iron boride can react with some metals and quasi-metals at high temperatures, such as carbon, silicon, boron, etc., so it has a certain application value in high-temperature chemical reactions. For example, it can produce high-strength and high-hardness alloy materials to cope with the shortcomings of general metals that are easy to oxidize at high temperatures.
Production Method of Iron Boride FeB Powder :
Electrochemical method:
The electrochemical method is a common method for producing iron boride. The principle of this method is to generate iron boride on the cathode by electrolysis of iron ion and borate ion solution. The specific production steps are as follows:
(1) Prepare an electrolyte containing iron and borate ions: dissolve iron salts and borates in an appropriate solvent, such as water, ethanol, or ethylene glycol.
(2) The electrolyte is sealed in the electrolytic cell, and appropriate electrolytes and additives are added to maintain the required pH value and current density.
(3) The electrolytic cell is electrolyzed, generating iron boride on the cathode.
(4) The generated iron boride is separated from the electrolyte by centrifugation, washing, and drying.
(5) Finally, the required iron boride product is prepared by grinding, pressing, forming, or sintering.
The electrochemical method has higher production efficiency and lower energy consumption but requires the use of a large number of electrolytes and electrodes, so the cost is higher. In addition, the electrolysis process may also produce waste, which has a certain impact on the environment.
Thermochemical method:
The thermal chemical process is another method of producing iron boride. The method is to directly synthesize iron boride by chemical reaction under high temperature and pressure. The specific production steps are as follows:
(1) Iron powder and boron powder are mixed to make an iron-boron preform with a certain shape and size.
(2) Put the prefabricated body into the furnace for a high-temperature synthesis reaction. Iron and boron react chemically under high temperatures and pressure to form iron boride.
(3) The required iron boride product is prepared by grinding, pressing, forming, or sintering.
The thermal-chemical method has lower production costs and less waste generation. Still, it requires high-temperature and high-pressure equipment and requires higher equipment maintenance and safety requirements. In addition, the reaction conditions of the thermal-chemical method are relatively complex, and it is necessary to precisely control temperature, pressure, and other parameters to obtain high-purity and high-quality iron boride products.
Prospect Market of Iron Boride FeB Powder :
High-temperature electrical and electronic equipment field: iron boride has a high melting point, hardness, and excellent electrical and thermal conductivity; these characteristics make it have a wide range of applications prospects. In the future, with the continuous development of high-temperature electrical and electronic equipment, the demand for iron boride will continue to increase.
High-temperature measurement field: iron boride has a high melting point, hardness, and chemical stability, making it a promising application in high-temperature measurement. In the future, with the continuous development of high-temperature measurement technology, the demand for iron boride will continue to increase.
Magnetic material field: iron boride has certain magnetic properties, which make it have application prospects in magnetic materials. In the future, with the continuous development of the field of magnetic materials, the demand for iron boride will also increase.
High-temperature chemical reaction field: iron boride can react with some metals and quasi-metals at high temperatures, and these characteristics make it have application prospects in the field of high-temperature chemical reaction. With the continuous development of the field of high-temperature chemical reactions, the demand for iron boride will continue to increase.
Iron Boride FeB Pulp Storage :
Wetness reactions may cause FeB Powders become damp. FeB Pulver, also known as iron Boride must be dried. FeB Pulver (iron Boride), is best kept dry.
Iron Boride FeB Powder Packaging. Shipping :
Many packaging options exist. These options will vary depending on what Iron Boride FeB is used.
Iron Boride FeB Pulver Packaging Requests are also welcomed.
FeBpulp Iron is available for shipment by air express and by sea.
Synthetic Chemical Nanotechnology Co. Ltd. can make high-quality chemicals and distribute them.
You can find high-quality Ironboride through us. (sales5@nanotrun.com)
Iron Boride Properties |
Additional Titles | Iron Monoboride, Ferric Boride Iron (II), bore. |
| 12006-84-7 |
Combination Formula | FeB |
Motility | 66.656 |
Appearance | Black powder or gray powder |
Melting Point | 1300-1500 |
Boiling Point | N/A |
Density | 7.15 g/cm3 |
Insoluble | Insoluble |
Official | 66.944243 |
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Iron Boride Safety & Health Information |
| N/A |
Hazard Statements | N/A |
Hazard Codes | N/A |
Risk Codes | N/A |
Information security statement | N/A |
Transport Information | N/A |
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