boride

Boride for rocket construction

Posted on by adminLeave a comment
What products can boride be used in? Boride Boride has a high melting temperature, high conductivity as well as high hardness. At high temperatures, its oxidation resistence is superior to that of Group IVB Metal Boride. Boride dissolves in Molten Alkali. Boride from rare earth and alkaline metals does not corrode by wet oxygen or dilute Hydrochloric Acid, but it is soluble when exposed to nitric.
Almost all boride compounds have metallic appearance and properties, with high conductivity and positive resistance-temperature coefficient. The Ti, Zr, and HF borides have better conductivity than their metal counterparts. Boride’s creep resistance is excellent, which makes it a good material for gas turbines and rockets. These materials must be strong, resistant to corrosion, and able work under high temperature. The various alloys, cermets, or borides based on carbide, nitride or boride can be used for the manufacturing of rocket structural parts, aeronautical devices components, turbines components, specimen clamps, instrument components of high temperature material testing machines, bearings, cone heads, and structural components of nuclear power devices.

Boride ceramics: Are they fragile?
Boride Ceramics have a high melting point as well as high thermal stability, hardness, and conductivity. Boride can be produced by normal pressurized sintering, ISOSTATIC pressing or hot pressing after injection or conventional molding.

What are boride compound?
Binary compound containing Boron, metals and nonmetals like carbon. MMBN may be expressed using a generic formula. It is an interfilling and does not obey the valence rules. Boride can be formed by other metals as well as zinc (Zn), cadmium(CD). Mercury (Hg). Gallium (Ga). Indium (In), thallium(Tl). Germanium (GE), tin (Sn), lead (PB). Bismuth (Bi). The crystals have high melting points and high hardness. They are also stable chemically and insoluble in hot concentrated acid.

Boride: A micronutrient with a vital role ?
B is commonly added to all commercial superalloys for improved high temperature serviceability. It is believed that B tends towards segregation at grain borders, which can help to prevent grain boundary migration when temperatures are high. Superalloys contain B in two forms: as solid solution or boride precipitates. B’s solid solubility in superalloys is low. Therefore, a number of borides such as M2b and M3B2 will precipitate during high temperature service. Despite the fact that these boride materials are present in many superalloys at a relatively macro-scale, such as their morphology. The further understanding of the fine structure of precipitates is helpful to optimize the material design and elaborate the structure-performance relationship reasonably.

Boride powder is available at a reasonable price
(aka. Technology Co. Ltd., a trusted global chemical supplier & manufacturer has over 12 years experience in providing high-quality Nanomaterials and chemicals. Our company is currently developing a range of powder materials. Our OEM service is also available. If you’re looking for Boride powder Powder Please contact us. Please click on Needed products Send us an inquiry.

Hafnium Boride

Posted on by adminLeave a comment

hafnium boride (HfB2) is an ultra-high temperature ceramic containing hafnium and boron. It has a melting point of 3250 degrees Celsius and is an unusual ceramic with relatively high thermal and electrical conductivity.

Applications: Wear resistant coatings, refractory materials and cutting tools. Also employed as a nuclear reactor control rod due to the presence of boron element.

Molecular structure of hafnium boride: A mixture of the oxides of boron and hafnium with traces of carbon or oxygen, in a tetragonal crystal system.

Characteristics of hafnium boride: Strong anti-oxidation ability, very good insulator and high hardness. It is a potential candidate material for high-temperature ceramics and wear-resistant materials.

Process of synthesis: This compound is synthesized via a carbothermic reduction of hafnium oxide, boron carbide and graphite followed by a borothermic reduction of boron and hafnium. The product has high purity, good dispersibility, small grain size and narrow distribution range.

Typical use: HfB2 is used as a refractory and tribological coating due to its high thermal and electrical conductivities. It is also a potential new material for nuclear reactor control rods and hypervelocity re-entry vehicles like ICBM heat shields or aerodynamic leading-edges, due to its strength and thermal properties.

American Elements produces several standard grades when applicable, including Mil Spec (military grade), ACS, Reagent and Technical Grade, Food, Agricultural and Pharmaceutical Grade, Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available.

What is Aluminum Boride?

Posted on by adminLeave a comment
What is it? Aluminum Boride ? Aluminum boride, a binary compound that is made of aluminum and Boron, is known as AlB2. AlB2 is its chemical formula. It is a reddish solid at normal temperatures and pressures. When heated, it loses some of its surface luster. It is stable when it is heated in cold dilute acid. However, it will break down in hot hydrochloric or nitric acid. It can be obtained by heating and reacting finely ground aluminum and boron powders after mixing.
Aluminum Boride: The Characteristics
Aluminum Boride is a monoclinic, black, glossy, monoclinic crystal that has a specific weight of 2.55 (18degC). It’s insoluble in water and acid, but can be decomposed in hot acid. Aluminum Boride is a dangerous substance as it reacts with acid or hydrogen to make toxic gases. Aluminum boride reacts with hydrochloric to release borane or aluminum chloride. Structurally, the B atoms form graphite sheets with Al between them. This is very similar in structure to magnesium diboride. AlB2 is a single crystal that exhibits metallic conductivity with an axis parallel the hexagonal plane.
Aluminum Diboride AlB2 Powder Properties
Other Titles aluminium boride, aluminum diboride, AIB2
No. 12041-50-8
Combination Formula AlB2
Molecular Weight 48.604 g/mol
Appearance Solid copper-red
Melting Point >920 degC (decomposes)
Solubility of in water Insolutable
Density 3.19 g/cm3
Purity >98.5%
Particle size 5-10um
Poisson’s Ratio N/A
Specific heat N/A
Thermal Conductivity N/A
Thermal Expansion N/A
Young’s Modulus N/A
Exact 49.000149
Monoisotopic 49.000149
Aluminum Diboride AlB2 Powder CAS 12041-50-8
How to prepare aluminum iboride
AlB12 powder was produced by powder metallurgy using amorphous Boron powder and aluminum powder. To determine the phase composition, relative contents, and microscopic structure of the product, Xray diffractometer was used and the scanning electron microscope was used. The product’s impurities are determined by the amount of buried powder Al. The buried powder Al content is 30% (mass content, the same below), and elemental Al exists in the product; the buried powder Al content is 10%, and the impurities are mainly Al2O3; When the Al content of the buried powder is 20%, the impurity content is the least, which is mainly oxy-magnesium-aluminum phase. The best process parameters for synthesis include constant temperature of 1400 and 60 minutes, an Al content of 17.2%, as well as 20% Al content in the buried powder.
Aluminum Boride: What are its applications?
Aluminum boride has a structure similar to intermetallic compound. This structure is dependent on the crystal structure in aluminum metal and boron and not their valence relationship. AlB2, AlB4, and AlB12 are the three aluminum borides. AlB2 is made by reacting two elements greater than 600. It is a layered structure. Al and B atoms are directly overlain (A,A mode), and the triangular column that forms from the direct overlap of Al and B atoms is filled with B atoms. This is because the boron layer is located between the aluminum layers. [3] The structure and function of the boron layer are similar to graphite. The hexagonal network of boron molecules is created by their interconnections. The distance between each boron atom and the other three atoms of the B is 0.173 nm. Six Al atoms connect to the B. These occupy the vertices the triangular prism greater. Dilute hydrochloric Acid can dissolve AlB2 to make a reducing mixture, which may include HB(OH),+. AlB2 is not soluble in dilute sulfuric acids, but is soluble in nitric. AlB2 will eventually decompose to AlB12 if it reaches 920degC.
Aluminum Boride’s main supplier
Tech Co., Ltd. () is a professional Boride powder Over 12 years of chemical product development and research experience. We accept credit cards, T/T and Paypal payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
You can find high quality amorphous powder boron at a great price by contacting us. Please contact us Send an inquiry

The Applications of Titanium Boride

Posted on by adminLeave a comment
What is it? Titanium Boride ? Titanium boride powder, gray or gray-black in color, has a hexagonal crystal structure. It has a high hardness and a melting point of 2980degC. Titanium diboride can withstand 1000°C of oxygen and is stable in HCl or HF acids. Titanium diboride can be used to prepare ceramic composite products. Its resistance to corrosion of molten steel makes it ideal for the production of electrolytic cell electrodes as well as molten crucibles.
These are the main features of Titanium Boride
Titanium boride, TiB 2 It is the most stable of all boron compounds and titanium. It has a C32 structure and is bound using valence bond. It is a metallicloid compound in the hexagonal system. It has two structural parameters. C is 0.3228nm, a 0.3028nm. The crystal structure is made up of the titanium and boron atomic plans. This creates a two-dimensional network structure in which B and three other Bs are combined by covalent bonds. An extra electron forms an enormous p bond. This graphite-like Ti boron atomic layer structure and the Ti outer electrons are responsible for TiB’s good electrical conductivity, and metallic luster. 2 This material has high hardness and brilliance because of the Ti-B bonds between the titanium atomic plan and the boron plane.
Titanium Boride Properties
Other Titles TiB2, TiB2 powder, titanium boride powder
No. 12045-63-5
Combination Formula TiB2
Molecular Weight 69.489
Appearance Gray Powder
Melting Point 2980 degC
Boiling Point N/A
Density 4.52 g/cm3
Solubility of H2O N/A
Thermal Expansion Code 8.1×10-6m/m.k
Thermal Conductivity 25J/m.s.k
Electrical Resistivity 14.4mO.cm
Exact 69.96656 D
Titanium Diboride TTB2 Powder CAS 12456-43-5
Titanium Boride’s applications
1. Conductive ceramic material. It is one of the most important raw materials for vacuum coating conductive boat.
2. Use ceramic cutting tools and molds. It can make finishing tools, extrusion and wire drawing dies, sealing elements, and sandblastingnozzles.
3. Composite ceramic materials. It can be used in multi-component materials to form composite materials. It is also an excellent material to make armor protection materials.
4. Aluminum electrolytic cells cathode coating material. The good wettability of TiB2 and molten steel makes it possible to use TiB2 as the aluminum electrolytic’s cathode material. This will reduce power consumption and increase the battery life.
5. It is used to make PTC heating ceramic material as well as flexible PTC materials. These materials have the advantages of being safe, reliable, efficient, and simple to process and mold. It is a modern high-tech product made from various electric heating material.
6. Good strengthening agent for metals like Al, Fe, Cu.
High-quality Titanium Boride Supplier
Luoyang Tech Co., Ltd. is a professional Boride powder Over 12 years experience in the development and research of chemical products. We accept credit cards, T/T and Paypal payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
You can find high quality amorphous powder boron at a great price by contacting us. Please contact us Send an inquiry




What is Titanium Boride?

Posted on by adminLeave a comment
What is it? Titanium Boride ? Titanium boride powder, gray or gray-black in color, has a hexagonal crystal structure. It has a high hardness and a melting point of 2980degC. Titanium diboride can withstand 1000°C of oxygen and is stable in HCl or HF acids. Titanium diboride can be used to prepare ceramic composite products. Its resistance to corrosion of molten steel makes it ideal for the production of electrolytic cell electrodes as well as molten crucibles.
The main features and benefits of Titanium Boride
Titanium boride, TiB 2 It is the most stable of all boron compounds and titanium. It is of the C32 type and is bound using valence bond. It is a metallicloid compound in the hexagonal system. The complete crystal’s structural parameters are: a = 0.3028 nm, and C = 0.3228 nm. The crystal structure is made up of the titanium and boron atomic plans. This creates a two-dimensional network structure in which B and three other Bs are combined by covalent bonds. An extra electron forms an enormous p bond. This graphite-like Ti boron atomic layer structure and Ti outer electrons are responsible for the high electrical conductivity and metallic shine of TiB. 2 This material has high hardness and brilliance because of the Ti-B bonds between the titanium atomic plan and the boron plane.
Titanium Boride Properties
Other Titles TiB2, TiB2 powder, titanium boride powder
No. 12045-63-5
Combination Formula TiB2
Molecular Weight 69.489
Appearance Gray Powder
Melting Point 2980 degC
Boiling Point N/A
Density 4.52 g/cm3
Solubility of H2O N/A
Thermal Expansion Code 8.1×10-6m/m.k
Thermal Conductivity 25J/m.s.k
Electrical Resistivity 14.4mO.cm
Exact 69.96656 D
Titanium Diboride Powder CAS 12045-63-5
Titanium Boride’s applications
1. Conductive ceramic material. It is one of the most important raw materials for vacuum coating conductive boat.
2. Use ceramic cutting tools and molds. It can make finishing tools, extrusion and wire drawing dies, sealing elements, and sandblastingnozzles.
3. Composite ceramic materials. It can be used in multi-component materials to make composite materials with TiC. TiN. SiC. To make high-temperature-resistant parts and functional pieces such as engine parts and high-temperatures crucibles. It is also an excellent material to make armor protection materials.
4. Aluminum electrolytic cells cathode coating material. The good wettability of TiB2 and molten steel makes it possible to use TiB2 as the cathode material for aluminum electrolytic cells. This will reduce power consumption and increase the battery life.
5. It is used to make PTC heating ceramic material as well as flexible PTC materials. These materials have the advantages of being safe, reliable, efficient, and simple to process and mold. It is a modern high-tech product made from various electric heating material.
6. Good strengthening agent for metals like Al, Fe, Cu.
High-quality Titanium Boride Supplier
Tech Co., Ltd. () is a professional Boride powder Over 12 years experience in the development and research of chemical products. We accept credit cards, T/T and Paypal payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
You can find high quality amorphous powder boron at a great price by contacting us. Please contact us Send an inquiry




What is Silicon Boride Powder?

Posted on by adminLeave a comment
Introduction to Silicon Boride Powder Silicon Boride This lightweight ceramic compound is also known as boron silicide. It is composed of silicon andboron. There are three types of silicon triboride.
Silicon hexaboride is also known as hexaboron Silicide. It’s a glossy, black-gray powder. SiB6 is its chemical formula. The molecular weight of SiB6 is 92.95. The relative density of the material is 2.47 g/cm3. The melting point is 2200. It is roughly the same hardness as ruby or diamond. Conductivity can be achieved with silicon hexaboride. It is insoluble when water is used. It can be oxidized when heated in chlorine or water vapor.

Silicon Boride Powder’s Physicochemical Property
The SiB6 crystal structure includes interconnected icosahedrons, polyhedrons that have 20 faces and icosahedrons that have 26 faces. It also contains isolated silicon and bore atoms.
It is insoluble when it comes into contact with water, and is resistant to oxidation and thermal shock. It has high strength, stability, and resistance to thermal shock. It is more efficient than boron caride in grinding.
Surface oxidation is caused by SiB6 being heated in oxygen or air. SiB6 can then be eroded at high temperatures using boiling sulfuric and fluorine, chlorine, and bromine. Borides can be used as electrical conductors. Hexamborides are low in thermal expansion and have high thermal neutron cross sections.
Silicon Boride Powder Properties
Other Names SiB6 Powder, silicon hexaboride
No. 12008-29-6
Formula compound SiB6
Molecular Weight 92.95
Appearance From dark grey to black powder
Melting Point 1950
Boiling Point N/A
Density 2.43g/cm3
Solubility of H2O Insoluble
Exact Mass 93.04
Silicon Boride SiB6 Powder CAS 12008-29-6

Preparation methods for Silicon Boride Powder
The mixture of boron, silicon and water can be heated directly. Any excess silicon can then be removed with HNO3 and HF. Molten KOH can also be used to decompose the B3Si.

Silicon Boride Powder: Applications
1 Used to grind cemented carbide, standard abrasives, and other uses.
2 are used for engineering ceramic material and sandblasting, as well as manufacturing gas engine blades and special-shaped sintering parts.
3. It is used as an oxidant in refractories.

Main supplier of Silicon Boride powder
Technology Co. Ltd. is a trusted global supplier and manufacturer of chemical materials. We have more than 12 years experience in producing super high-quality chemicals.
High-quality products are what you want Silicon Boride Powder, Feel free to contact us by sending an inquiry. (brad@ihpa.net)

Boronization Process of Iron Boride

Posted on by adminLeave a comment
What’s iron Boride? Iron boride has a molecular formula of BFe with a molecular mass 66.656. This is a gray orthogonal crystal. But it also can be insoluble in liquid water. You can use it as a chemical agent, or as a catalyst to hydrohydrogenation. Two main types of iron Boride exist. One form has high magnetic, electrical conductivity and corrosion resistance. Another is used for hardening iron. Iron Boride is a ceramic-hardening iron boride, which also has high thermal conductivity or electrical conductivity. Excellent mechanical properties and friction resistance make iron boride a great coating.

Boron iron alloy

While iron is mostly composed of boron and steel, it can also contain impurities including aluminum, silica, carbon, manganese and even copper. Iron Boride is an iron additive that can be used in iron and steel casting, iron and iron smelting, and amorphous alloys as well. Non-toxic, odorless and non-irritating are the main properties of iron Boride. They also have good heat resistance and thermal stability, excellent dispersion, weather resistance and obvious sterilization against harmful bacteria.

Puffing process

By thermochemical reaction, iron boride can be formed on its surface as a mixture from boron-rich compounds. This is known as boronization. A variety of methods can be used to create a boride layer, including filling boronizing and gas boronizing. The most common type of boride coating is carbon tetraboride, or crystalline Boron. It is created by sintering iron in a tetrafluoroboric acids flux. In the range 1023-1373 K, Boron atoms are capable of absorbing into the iron matrix. By simply reacting iron, boron and heat in an inert gas furnace/microwave, bulk iron boride is possible. Boronization can often be used for wear resistance. It also helps to prevent corrosion, wear resistance, wear resistance, and oxidation. You can use it in many industries, including oil and natural gas refining and chemical extraction. The unique characteristics of iron-based coatings, such as their resistance to corrosion, mechanical friction and corrosion resistance have attracted a lot attention within the industry. Iron-based materials can be produced economically using a variety of thermal processes and are simple to make and process.

Use of iron Boride

1. This light stabilizer is often used in sunscreen plastics. It can be found in sporting goods, outdoors facilities and fabrics, as well as carpets. It’s also used frequently in photovoltaic and solar power conversion. 2. This can be used to enhance the adhesion of inks, paints, and textiles. 3. It’s used by the paper industry for improving the printability of the papers. 4. This can increase the strength and anti-aging capabilities of plastics, rubbers, and functional fibers, as well as maintain the product’s color gloss and extend the product’s service life. 5. The material has excellent transparency, strong UV shielding and virtually no scattering effects on incident visible light. This material is new and has been extensively used in cosmetics, paints, as well as paints. Rmcplant advanced Material Tech Co., Ltd. is a leading manufacturer of Iron Boride. It has over 12 years of experience in the development and research of chemical products. We can help you find high-quality Iron Boride. Please contact us to send an inquiry.
Inquiry us