Tag: aluminum

The Structure of Aluminum Carbide

Aluminum carbide is a yellow powder or crystals that decomposes in water to produce methane. It is used as a reducing agent and for the manufacture of aluminum nitride.

It can be obtained by heating a mixture of the elements at high temperatures. It reacts with water or dilute acids to form methane, a flammable gas.

The chemical formula for aluminium carbide is Al4C3. It consists of a complex lattice structure with two sorts of layers.

Sodium treatment is an effective way to stabilize aluminum carbide in an aluminum-carbide-based alloy. The resulting alloy can be tapped out from the furnace, cooled slowly and separated to yield pure aluminum. This process has the potential to become competitive with the Bayer-Hall-Heroult process.

Aluminium halides, also called aluminum oxides, are a class of compounds that are inert to acidic solutions at low pH and have very high melting and boiling points. Typical aluminum halides include aluminum fluoride (AlF3), aluminum chloride (AlCl3), and aluminum bromide (AlBr3).

Aluminum carbide, Al4C3, has a complex structure with two inequivalent sites and one shorter site and four equivalent C4- atoms. The first of these sites is bonded to four atoms to form a trigonal R3m space group, and the second site is bonded to three shorter and two longer Al-C bond lengths.

Aluminium carbide frequently occurs as an undesired product in metal matrix composites based on aluminum matrix reinforced with non-metal carbides (silicon carbide, boron carbide, etc.) or carbon fibers. The chemical interactions between silicon carbide particles and molten aluminum in these composites produce a layer of aluminum carbide on the SiC particles, which reduces the material’s strength while increasing its wettability. This propensity can be reduced by covering the silicon carbide particles with a suitable oxide or nitride, preoxidizing them to generate a silica coating, or employing a sacrificial metal layer.

Aluminum carbide is a yellow powder or crystals that decomposes in water to produce methane. It is used as a reducing agent and for the […]

Continue reading

The Applications of AlMgB14 Powder

Overview of AlMgB14 Pulver
Aluminum Boride or Al3Mg3B56 The compound of aluminum, magnesium, and boron, also known as BAM is commonly known. Its nominal molecular formula for boron is AlMgB14. However, its chemical structure is closer to Al0.75Mg0.75B14. It is a wear-resistant ceramic alloy with a very low sliding friction coefficient. A record 0.04 was achieved in the AlMgB14 – TiB2 composite material, and 0.02 for the AlMgB14 – TiB2 composite. In 1970, BAM reported the discovery. It is an orthogonal structure and each cell has four B12 icosahedral units. The superhard material’s thermal expansion coefficient is comparable to that of concrete and steel.
AlMgB14 aluminum/magnesium-boride material has a better abrasion resist than diamond and is a novel anti-degradation product. AlMgB14’s density is 2.66g/cm3. This is lower than most superhard materials, such as diamond or cubic-boron nitride. It is also resistant to carbon steel, stainless and titanium alloys up to 1300degC. It is also highly thermal stable.
Aluminum Magnesium Boride BAM AlMgB14 Powder
What are the applications of AlMgB14 Pulver?
BAM is available commercially, and more research is underway to find potential applications. To reduce friction between the parts and improve wear resistance, BAM, or BAM+ TiB2, can be applied to pistons, seals, and vanes. Energy consumption will be reduced by reducing friction. BAM can also apply to cutting tools. Reducing friction will decrease the force required to cut objects, extend the life of tools, and increase the speed of cutting. A 2-to-3 micron thick coating can improve efficiency and reduce tool wear.
The research area of superhard materials is dominated by Ternary Boride AlMgB14 powder. It has received a lot of attention from researchers at home as well as abroad over the past years. AlMgB14 superhard metal is an alternative to traditional metastable materials such as diamond or cubic boron nuitride. This superhard material has good thermoelectric and thermal stability, high hardness and low density.
AlMgB14 aluminum/magnesium-boride material has a better abrasion resist than diamond and is a novel anti-degradation product. AlMgB14’s density is 2.66g/cm3, which makes it much more dense than other superhard materials like diamond and cubic-boron nitride. It will not react with carbon, stainless, or titanium alloys up to 1300degC and has high thermal stability.
AlMgB14 aluminum–magnesium boreide has a higher electrical conductivity than most other superhard materials. It is practically equivalent to polysilicon. AlMgB14 has a low price that is between 5 and 10 times those of cubic boron nuitride or diamond. AlMgB14’s excellent properties make it not only wearable.
You can use traditional skills, like cutting and protective coating, in advanced scientific areas such as photodetectors, photodetectors, neutronmasks, micromachines and key aerospace components.
The main supplier of AlMgB14 powder
Tech Co., Ltd. () is a professional Boride powder Over 12 years’ experience in chemical product development and research. We accept credit cards, T/T and West Union payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
You can find high-quality powdered boron carbide here Please contact us Send an inquiry

Overview of AlMgB14 Pulver Aluminum Boride or Al3Mg3B56 The compound of aluminum, magnesium, and boron, also known as BAM is commonly known. Its nominal molecular […]

Continue reading

What is Aluminum Diboride AlB2 Powder?

Introduction to Aluminum Diboride AlB2 powder Aluminum diboride Or Aluminum Boride, AlB2 This inorganic compound has the chemical name AlB2. It is a binary mixture of aluminum and boron. It is a grey-red, solid that is insoluble in water at both room temperature and pressure. It loses its gloss when heated.
Aluminum diboride This is made from a mixture of fine powdered aluminum and boron, and then reacting with heat. It is one the two compounds of aluminum or boron, AlB12 being the other. They are also known as aluminum boreide.
Aluminum boride can be dangerous because it reacts to acid and hydrogen to make toxic gases. Aluminum boride can react with hydrochloric Acid to release borane and aluminum cyanide.

Structures of aluminum diboride AlB2
The structure aluminum boride Similar to the structure of metal interdides, it is dependent mainly on the crystal structures of aluminum and boron. AlB2, AlB4, AlB12, and AlB12 are the aluminum borides. AlB2 is formed when two elements over 600 react to form the diboride AlB2. It is a layered structure that Al atoms directly overlap. A, A and B atoms are filling the triangular column made by the direct overlap Al. This is the boron layer, which is located between the aluminum layers. The graphite-like structure of the boron layer is also similar. The hexagonal network connects the boron molecules. Each Batom is approximately 0.173nm distant from the other B atoms. Additionally, six Al atoms connect to B. These six Al atoms occupy the apex in the triangular column. Dilute hydrochloric Acid can dissolve AlB2 to make a reductive mixture that may contain HB (OH)+. AlB2 is not soluble in dilute sulfuric acids, but is soluble in nitric. AlB2 was able to decompose AlB12 at 920
Aluminum Diboride AlB2 Properties
Other Names aluminum boride, aluminum diboride, AIB2
CAS No. 12041-50-8
Formula compound AlB2
Molecular Weight 48.604
Appearance Solid copper-red
Melting Point 920degC
Boiling Point N/A
Density 3.19g/cm3
Solubility of H2O Insoluble
Exact Mass 49
Aluminum Diboride AlB2 Powder CAS 12041-50-8

Applications and Physicochemical Characteristics of Aluminum Diboride AlB2 Pulp
AlB2 single crystal displays metallic conductivity along an alignment parallel to the hexagonal basis plane. Boron – Aluminum composite aluminum, aluminum alloy reinforced with or protective coating boron fibr. Boron fiber generally has a volume content between 45% and 55%. It is very low in specific gravity, and it has excellent mechanical properties. The longitudinal tensile and elastic strength of the unidirectionally strengthened boron/aluminum composite vary depending on the manufacturing process. The specific strengths and longitudinal specific elastic module are about 35 and 34 respectively, according to the titanium alloy duralumin. It exhibits good fatigue resistance and high strength below 400.
It was used for fan blades in turbojet engines as well as aerospace and structural parts. For manufacturing plate, profile, or more complicated shapes, hot pressing diffusion bonds is used. Continuous casting is also an option to produce different profiles.
Aluminum Boride is used in ceramics as well medical equipment, nuclear energy and refractory ceramics.

Main supplier of aluminum diboride alB2 powder
Technology Co. Ltd. is a trusted global supplier of chemical materials and manufacturer. It has over 12-years experience in producing super high-quality chemicals.
High-quality products are what you want Aluminum Diboride AlB2 Powder Please feel free and contact us to send an inquiry. (brad@ihpa.net)

Introduction to Aluminum Diboride AlB2 powder Aluminum diboride Or Aluminum Boride, AlB2 This inorganic compound has the chemical name AlB2. It is a binary mixture […]

Continue reading

AlN Ceramic Powder Injection Molding Components

About AlN Ceramic Powder Injection Molding Components:
Aluminum nitride, covalent bond compound, the chemical formula is AIN, is an atomic crystal, belongs to diamond-like nitride, hexagonal system, wurtzite type crystal structure, non-toxic, white or off-white. AlN can stabilize up to 2200℃. The strength at room temperature is high, and the strength decreases slowly with the increase of temperature. Good thermal conductivity, small coefficient of thermal expansion, is a good heat-resistant impact material. It is an ideal crucible material for melting and casting pure iron, aluminum or aluminum alloy because of its strong ability to resist molten metal erosion. Aluminum nitride is also an electrical insulator, with good dielectric properties, and is also promising as an electrical component. The aluminum nitride coating on the surface of gallium arsenide protects it from ion implantation during annealing. Tungstenmolybdenummetals is a trusted global AlN Ceramic Powder Injection Molding Components supplier. Feel free to send an inquiry about the latest price of AlN Ceramic at any time.

Product Performance of Aluminum Nitride AlN Ceramic Microsphere:
Our AlN ceramic powder injection molding components has the properties: excellent performance, low in cost, high production quantities and shape complexity.

Features of AlN Ceramic Powder Injection Molding Components:
High thermal conductivity
High strength
High accuracy
High insulation strength
Complex shape custom available
Plasma resistance

Specification of AlN Ceramic Powder Injection Molding Components:

PropertiesTr-C210Tr-C170
Density (g/cm3)3.333.32
Thermal conductivity (W/m·K)210170
Bending Strength (MPa)300410
Insulation (KV/mm) 2731
Dielectric 8.98.8
CTE (10-6) 4.94.6

 

How is AlN Ceramic Powder Injection Molding Components Produced? 
Preparation of aluminum nitride ceramic powders by direct nitriding of Al powder:
The direct nitriding method of Al powder is the earliest method to prepare AlN powder. In this method, aluminum powder is heated in nitrogen. At high temperatures (800~1200℃), aluminum powder and nitrogen directly react to produce aluminum nitride powder, the reaction formula is 2Al + N2 =2AlN.
This method has the advantages of abundant raw materials, low cost, simple process, and no side reaction. However, the disadvantages of this method are also obvious. At the initial stage of reaction, the surface of aluminum powder particles will gradually form a nitride film, which makes it difficult for nitrogen to penetrate further and hinders nitrogen reaction, resulting in a low yield. And because the reaction between aluminum and nitrogen is a strongly exothermic reaction, the speed is very fast, resulting in the AlN powder self-sintering, forming agglomeration, making the powder particles coarsening.
The preparation methods of aluminum nitride powder include Al2O3 carbothermal reduction, self-spreading high-temperature synthesis, high-energy ball milling, chemical vapor deposition, sol-gel method, plasma chemical synthesis, in-situ autoreactive synthesis, arc melting, microwave synthesis, sol-thermal synthesis, etc.
 
Applications of AlN Ceramic Powder Injection Molding Components:
1. Aluminum nitride powder with high purity, small particle size and high activity. It is the main raw material for manufacturing high thermal conductivity aluminum nitride ceramic substrate.
2. Aluminum nitride ceramic substrate has high thermal conductivity, low expansion coefficient, high strength, high-temperature resistance, chemical corrosion resistance, high resistivity, small dielectric loss. It is an ideal substrate and packaging material for large-scale integrated circuits.
3. The hardness of aluminum nitride is higher than that of traditional alumina. It is a new type of wear-resistant ceramic material, but because of its high cost, it can only be used for parts with severe wear.
4. By using the heat resistance, melt erosion resistance and thermal shock resistance of AIN ceramics, GaAs crystal crucible, Al evaporation plate, magnetic fluid power generation device and high-temperature turbine corrosion resistance parts can be made, and its optical properties can be used as an infrared window. The aluminum nitride film can be made into high-frequency piezoelectric elements and very large-scale integrated circuit substrates.
5. Aluminum nitride heat resistance, corrosion of molten metal, stable to acid, but in alkaline solution is easy to be eroded. Exposure to wet air on the new surface of AIN reacts to form an extremely thin oxide film. Using this characteristic, it can be used as a crucible and casting mold material for aluminum, copper, silver, lead and other metals melting.AIN ceramics have good metallization properties and can replace toxic beryllium oxide ceramics in the electronic industry.

Storage Condition of AlN Ceramic Powder Injection Molding Components:
The damp reunion will affect AlN ceramic powder injection molding components dispersion performance and using effects, therefore, it should be sealed in vacuum packing and stored in cool and dry room, the AlN ceramic powder injection molding components can not be exposure to air. In addition, it should be avoided under stress.

Packing & Shipping of AlN Ceramic Powder Injection Molding Components:
We have many different kinds of packing which depend on the AlN ceramic powder injection molding components quantity.
AlN ceramic powder injection molding components packing: vacuum packing, 1kg/bag, 25kg/barrel, or as your request.
AlN ceramic powder injection molding components shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

AlN Ceramic Powder Injection Molding Components插图

AlN Ceramic Powder Injection Molding Components Properties

Other NamesAluminium nitride
CAS No.24304-00-5
Compound FormulaAlN
Molecular Weight40.9882
AppearanceWhite to pale yellow powder
Melting Point2200 °C
Boiling Point2517 °C (dec.)
Density2.9 to 3.3 g/cm3
Solubility in H2ON/A
Electrical Resistivity10 to 12 10x Ω-m
Poisson’s Ratio0.21 to 0.31
Specific Heat780 J/kg-K
Thermal Conductivity80 to 200 W/m-K
Thermal Expansion4.2 to 5.4 µm/m-K
Young’s Modulus330 GPa
Exact Mass40.9846
Monoisotopic Mass40.9846

 

AlN Ceramic Powder Injection Molding Components Health & Safety Information

RemarksDanger
Hazard StatementsH314-H335
Hazard CodesXi
Risk Codes36/37/38
Safety Statements26-37/39
RTECS NumberN/A
Transport InformationN/A
WGK Germany3


 

Inquiry us

About AlN Ceramic Powder Injection Molding Components:Aluminum nitride, covalent bond compound, the chemical formula is AIN, is an atomic crystal, belongs to diamond-like nitride, hexagonal system, […]

Continue reading

Aluminum Nanoparticles Nano Al Powder CAS 7429-90-5

About Aluminum Nanoparticles Nano Al Powder:
In recent years, as potential applications in many fields have become more and more obvious, nano-aluminum powder has attracted extensive research interest. Nano aluminum powder particles appear in the form of spherical gray or black particles and are aggregated together in the form of gray or black powder, and the size is usually 10nm to 5um.
Aluminum nano-powder improves the sintering process of ceramics, has higher heat transfer performance, higher density, and improves the thermal conductivity of the sintered body, and has good sintering ability and sunlight.
 
Aluminum nanopowders add aluminum (AI) to lead selenide (PbSe), and in the past few decades, the n-type PbSe thermoelectric material thermoelectric (TE) materials and devices produced have attracted people’s attention because they The combination of solar energy and waste to convert heat into electricity has potential application value. The performance of thermoelectric materials depends on electrical conductivity, absolute temperature, lattice thermal conductivity and electronic thermal conductivity.
 
Aluminum nano-powder can be used as an environmentally friendly generator, a highly reliable and accurate temperature controllable refrigerator electronic device. Because it is one of the simplest energy conversion technologies, it can be used for electrical energy conversion. Widespread concern. The thermoelectric efficiency depends on the basic characteristics of thermoelectric materials and the quality factor of thermoelectric materials. For centuries, because the thermoelectric effect can realize the direct conversion between thermal energy and electrical energy, thermoelectric materials have attracted widespread attention, thereby providing another method of power generation and cooling.
 
The Seebeck coefficient of aluminum nanopowder is a parameter that measures the efficiency of a material to generate a voltage from a specific temperature gradient. The effect of aluminum nanoparticles on the Seebeck coefficient of silicon-based thermoelectric generators was studied. This application is partly due to the inability to obtain effective thermoelectric materials and partly due to the high power required by biomedical equipment. Feel free to send an inquiry to get the latest price if you would like to buy Aluminum Nanoparticles Nano Al Powder in bulk.

Product Performance of Aluminum Nanoparticles Nano Al Powder:

Aluminum nanoparticles are light, have high floating power, strong hiding power, and has good light and heat reflection properties. Aluminum powder is a large class of metallic pigments due to its wide use, large demand and many varieties.


Technical Parameter of Aluminum Nanoparticles Nano Al Powder:

Product NameMFPurityParticle SizeCASMelting PointColor
Aluminum NanoparticlesAl99%50-70nm, 150nm7429-90-5660℃Gray


How is Aluminum Nanoparticles Nano Al Powder produced?
Nano aluminum powder is a product produced by the arc method and the electric explosion method. Compared with ultra-fine or larger particles of the same material, aluminum nanopowders have an enhanced size dependence. Aluminum nanoparticles are used as ingredients in solid rocket propellant formulations and explosives. Aluminum nanoparticles are produced through various physical and chemical methods. Line explosion, laser ablation, combustion flame and aerosol synthesis, but micro EDM system has not been studied to generate aluminum nanoparticles.
 

Application of Aluminum Nanoparticles Nano Al Powder:

1. Efficient catalyst: Nano aluminum powder is added to the solid fuel of the rocket, which greatly increases the fuel combustion speed and improves the combustion stability;
2. Activated sintering additives: 5-10% nano aluminum powder is mixed into AlN powder to reduce the sintering temperature and increase the density and thermal conductivity of the sintered body; if nano aluminum is used as the substrate for integrated components, the thermal conductivity will increase by about 10 times. Can solve the integration problem of integrated components.
3. Surface conductive coating treatment of metal and scrap metal: Due to the high activation surface energy of nano-aluminum, the coating can be applied at a temperature lower than the melting point of the powder under oxygen-free conditions. This technology can be applied to the production of microelectronic devices.
4. Widely used in high-grade metal pigments, composite materials (thermal spraying composite metal powder, ceramic composite steel pipe) military industry (filler), chemical industry (various chemical catalysts, pesticides), metallurgy (thermite metallurgy, steelmaking deoxidizer), Shipbuilding (conductive coatings), refractory materials (magnesia carbon bricks for steelmaking furnaces), new building materials (aerated concrete gas generators), anticorrosive materials, etc.
 

Storage Condition of Aluminum Nanoparticles Nano Al Powder:
The damp reunion will affect aluminum nanoparticles’ dispersion performance and using effects, therefore, nano Al powder should be sealed in vacuum packing and stored in cool and dry room, the nickel nanoparticles can not be exposure to air. In addition, the Al Nanoparticles should be avoided under stress.

Packing & Shipping of Aluminum Nanoparticles Nano Al Powder:
We have many different kinds of packing which depend on the aluminum nanoparticles’ quantity.
Aluminum nanoparticles packing: vacuum packing, 1kg/bag, 25kg/barrel, or as your request.
Aluminum nanoparticles shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.


Aluminum Nanoparticles Nano Al Powder CAS 7429-90-5插图



 

Aluminum Nanoparticles Properties

Other NamesAluminium nanopowder, nanoaluminum,
Al nanoparticles, Nano Al Powder
CAS No.7429-90-5
Compound FormulaAl
Molecular Weight26.98
AppearanceGray to Black Powder
Melting Point660 ℃
Boiling Point2467 ℃
Specific Surface Area40-60 m2/g
Solubility in H2ON/A
Thermal Expansion(25 °C) 23.1 µm·m-1·K-1
  
  

Aluminum Nanoparticles Health & Safety Information

Signal WordDanger
Hazard StatementsH228
Hazard CodesF
Risk CodesN/A
Safety StatementsN/A
Transport InformationUN1309 – class 4.1 – PG 2 
Inquiry us

About Aluminum Nanoparticles Nano Al Powder:In recent years, as potential applications in many fields have become more and more obvious, nano-aluminum powder has attracted extensive research […]

Continue reading

Aluminum Nitride AlN powder CAS 24304-00-5

About Aluminum Nitride AlN powder:
Similar to various semiconductors, aluminum nitride powder has excellent thermal conductivity, high electrical insulation and thermal expansion characteristics, making it the best material for sintered bodies.


If you want to know aluminium nitride price/aluminium nitride cost, please send inquiry to sales1@rboschco.com


Aluminum nitride is stable at high temperatures in an inert atmosphere and melts at a temperature of about 2200°C. In a vacuum, AlN decomposes at ~1800°C. In the air, surface oxidation will occur above 700°C. Even at room temperature, a surface oxide layer with a thickness of 5-10 nm has been detected. The oxide layer can protect the material at temperatures up to 1370°C. Above this temperature, bulk oxidation occurs. Aluminum nitride is stable in hydrogen and carbon dioxide atmospheres up to 980°C.

The material slowly dissolves in inorganic acid through grain boundary erosion and dissolves in strong alkali through erosion of aluminum nitride grains. Aluminum nitride ceramic is resistant to most molten salts (including chloride and cryolite). RBOSCHCO is a trusted global aluminum nitride suppliersFeel free to send an inquiry to get the latest price of Aluminum nitride if you would like to buy Aluminum Nitride AlN powder in bulk.

Product Performance of Aluminum Nitride AlN powder:
Our company sells the aluminum nitride powder ( CAS 24304-00-5 ) with high purity and ultrafine particle size, the surface activity is high, through the superficial cloth wrapper processing powder body, the oxygen content is extremely low (<0.1%), the insulation heat conduction performance effect is obvious.

How is Aluminum Nitride AlN powder produced?
Thermal Spray Process: Aluminum nitride powders can be thermal sprayed to form electrically insulating and thermally conductive coatings.
Chemical/Physical Vapor Deposition (CVD/PVD): Aluminum nitride coatings are deposited by CVD or PVD to provide electrically insulating and thermally conductive coatings.
Powder Metallurgical (P/M): Aluminum powders are pressed into parts by hot or cold pressing and sintering.

Specification of Aluminum Nitride AlN powder:
Product Name: aluminum nitride;
Purity: 99.9%;
Particle Size:  sintering—-1-3um, 3-5um, 6um;
                       filler———-1-3um, 3-5um, 6-10um, 25um;

Chemical Composition of Aluminum Nitride AlN powder:

AlNNFeMnOCCaSiNi
>99.9%≥32%0.040.0005≤0.420.02≤0.009≤0.0450.0002

 

Application of Aluminum Nitride AlN powder:

Aluminum nitride (AlN) is an inorganic non-metallic material of diamond-like nitride with good thermal conductivity and a low coefficient of thermal expansion. It is a good thermal shock material. Strong resistance to molten metal corrosion, it is an ideal crucible material for melting and casting pure iron, aluminum or aluminum alloy. Aluminum nitride is also an electrical insulator with good dielectric properties, and it also has good application prospects in the field of electrical component manufacturing.
1. Manufacture integrated circuit foundation plate, the electronic device, the optical device, the radiator, the high-temperature crucible prepares metal-based and the high score subbasis compound materials

2. Heat conducting silicon and thermally conductive epoxy resin.

3. Nano lubricant and antiwear agent.

4. High thermal conductive plastic
Epitaxially grown thin-film crystalline aluminum nitride is used for surface acoustic wave sensors (SAWs) deposited on silicon wafers because of AlN’s piezoelectric properties. One application is an RF filter, widely used in mobile phones, which is called a thin-film bulk acoustic resonator (FBAR). This is a MEMS device that uses aluminum nitride sandwiched between two metal layers.

AlN is also used to build piezoelectric micromachined ultrasound transducers, which emit and receive an ultrasound and which can be used for in-air rangefinding over distances of up to a meter.

Packing & Shipping of Aluminum Nitride AlN powder :
We have many different kinds of packing which depend on the aluminum nitride AlN powder quantity.
Aluminum nitride AlN powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Aluminum nitride AlN powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.
Aluminum Nitride AlN powder CAS 24304-00-5插图

Tungstenmolybdenummetals Nano Technology Co. Ltd. (Tungstenmolybdenummetals) is a trusted global chemical material supplier & manufacturer with over 12-year-experience in providing super high-quality chemicals and Nanomaterials, including boride powder, nitride powder, graphite powder, sulfide powder, 3D printing powder, etc.
If you are looking for high-quality AlN powder, please feel free to contact us and send an inquiry.
 

Aluminum Nitride Properties

Other NamesAluminium nitride
CAS No.24304-00-5
Compound FormulaAlN
Molecular Weight40.9882
AppearanceWhite to pale yellow powder
Melting Point2200 °C
Boiling Point2517 °C (dec.)
Density2.9 to 3.3 g/cm3
Solubility in H2ON/A
Electrical Resistivity10 to 12 10x Ω-m
Poisson’s Ratio0.21 to 0.31
Specific Heat780 J/kg-K
Thermal Conductivity80 to 200 W/m-K
Thermal Expansion4.2 to 5.4 µm/m-K
Young’s Modulus330 GPa
Exact Mass40.9846
Monoisotopic Mass40.9846

 

Aluminum Nitride Health & Safety Information

RemarksDanger
Hazard StatementsH314-H335
Hazard CodesXi
Risk Codes36/37/38
Safety Statements26-37/39
RTECS NumberN/A
Transport InformationN/A
WGK Germany3


 

Inquiry us

About Aluminum Nitride AlN powder:Similar to various semiconductors, aluminum nitride powder has excellent thermal conductivity, high electrical insulation and thermal expansion characteristics, making it the best […]

Continue reading

Aluminum Ingot Manufacturers

An ingot is a piece of metal, usually a precious or base metal that has been molded into a specific shape to facilitate transportation and processing. Traditionally, ingots were formed by pouring or injecting molten liquid into a mold.

Ingots may also be used to cast non-metallic or semi-conductor materials that are prepared in bulk form by other means. Examples include polycrystalline or single crystal ingots of semiconductors (e.g., electronic chip wafers or photovoltaic cells) and non-conducting inorganic compounds for industrial or jewelry use (e.g., synthetic ruby or sapphire).

Aluminum Ingot manufacturers produce aluminum ingots through a process known as smelting. They come in a variety of different sizes and grades. They can be used for many different applications, including auto industry and electrical industries.

Aluminium ingot manufacturer produces pure aluminum ingots as well as alloyed ingots. Alloyed ingots are much stronger and more durable than their pure counterparts, so they are often more popular among customers.

Manufacturer of aluminum ingots serves the automotive, aerospace, microelectronics, composites, chemical, textile and magnetics industries. They offer ingot sizing, heat treating, hardening, packaging, analytical, recycling, annealing, crushing, screening and drying services.

Various shapes of ingots can be produced with this equipment, including round, square, hexagonal and rectangular. They can also be cut and milled, and shaped into various types of products.

Aluminum ingots are manufactured from bauxite, an ore that contains aluminum. They are then melted and processed into various aluminum products.

An ingot is a piece of metal, usually a precious or base metal that has been molded into a specific shape to facilitate transportation and […]

Continue reading

Good heat impact resistant material Aluminum Nitride

How does Aluminum Nitride play a role in the world? The main applications aluminum nitride Powder: Thermal conductive filler, for thermal conductive paste or thermal conductive grease. The aluminum nitride has many uses in photoelectric technology, such as in the optical storage interface, which can serve as an electron substrate, electric induction layer, and wafer carrier. Because of its piezoelectric effects, epitaxial extensions of aluminum nitride crystallines are also useful in detecting surface acoustic signals. On a silicon wafer, the detector is placed. This thin film can be produced only in a few locations. High room temperatures, high temperature strength and low thermal conductivity make aluminum nitride clays ideal for high-temperature structures of heat exchangers. Use aluminum ceramics or their dissolution properties as casting materials for Al, Cu, Ag and Pb can be made.
What properties is aluminum nitride?
AlN It can stabilize up to 2,200. It is sensitive to room temperatures and has a high intensity. However, the intensity drops slowly as temperature increases. Good heat resistance materials have a high thermal conductivity and a low thermal expansion coefficient. The crucible material is ideal for making pure iron, aluminium, and aluminum alloys. It has a low rate of molten metallic erosion. Aluminium nitride can also be used to make an electrical component. Aluminum nitride protects gallium arsenide from ionization during annealing by coating it with aluminum nitride. The aluminum nitride also acts as a catalyst for the conversion of hexagonal to cubic boron nutride. Slow reaction at room temperature with water. You can make this from aluminum powder at 800 to 1000 in an ammonia- or nitrogen atmosphere. The product will be white to gray-blue and it is easily synthesized. You can make it from aluminum powder at 800 to 1000 in ammonia or nitrogen atmosphere. It is then distilled into a gray-white powder using the Al2O3–C-N2 process, which takes place between 1600 and 1750. Aluminum chloride, ammonia can be produced by gas phase reaction. Vapor deposition can be used to synthesize coatings from AlCl3/NH3.

Aluminum Nitride prices
There are many factors that affect the price of aluminum nitrate purity. There is dynamic movement in the market price for Aluminium Nitride. We are available to assist you at all times.

Aluminum Nitride supplier
Advanc3dmaterials (aka. With 12 years experience, Advanc3dmaterials (aka. Our company currently has a number of powder materials. You can also order OEM. Aluminum Nitride is available for purchase. Get in touch To send us an enquiry, click the appropriate products.


Inquiry us

How does Aluminum Nitride play a role in the world? The main applications aluminum nitride Powder: Thermal conductive filler, for thermal conductive paste or thermal […]

Continue reading

Aluminum Oxide Powder used as Carrier

What does it mean to be an aluminum oxide carrier

Aluminum oxide White powder, molded Aluminum oxide, solid is called carrier. It accounts for approximately 70% of industrial support catalysts. Aluminium oxide comes in many forms. Different forms not only have different properties; even different forms can exhibit different properties due to their different sources.
Aluminum oxide is used as a catalyst. These properties are crucial. Aluminium oxide can be prepared mostly from the hydroxide. Also known as aluminum oxide, hydrate, or aluminum oxide.

Aluminum oxide carrier shapes

Although aluminum oxide carrier powders are available in commercial quantities, most are moldable. Most aluminum oxides used for catalysts in fixed-bed reactors include spherical, ingot and strip forms. However, microspherical carriers of aluminum oxide are more commonly used in fluidized beds. Aluminum oxide can be made into specific-shaped carriers, including honeycomb and rings, for catalytic processes like trefoil and ring. Aluminium oxide sol can also be purchased in solids. Crystal form, purity and specific surface area are important criteria for choosing aluminum oxide. Bulk density is also an option. Specific surface area for a-aluminumoxide is extremely low, less than 1m2/g. In contrast, the specific surface area for transition aluminum oxide ranges from 10 to 102m2/g.

Properties of aluminum oxide carriers

Porous materials make up most of the commercially available aluminum oxide carriers. The pore sizes and their distributions have a significant impact on the diffusion properties in the catalytic processes. While fine pores have an average size of less than 20mm2, coarse pores are larger and can exceed microns. It is possible to have different types of pores. Every type of transition aluminium oxide is water-rich. Additionally, there are several hydroxyl groups, exposed aluminum atoms, and some aluminum atoms that have been exposed. The surface of aluminum oxide carriers has important effects on its properties. Temperature and the prep conditions can affect the surface acidity. Aluminum oxide will have a higher surface acidity due to the presence of halogen and other negative ions. These ions will also promote aluminum oxide’s ability to catalyze hydrocarbon cracking or isomerization.

Application of aluminum oxide powder

Catalytic active elements are added to aluminum oxide powder. Supporting catalyst active ingredients with high specific activities is possible with aluminum oxide having a limited specific surface area. This can be used for materials that have fewer pores or with very few coarse pores. This type of carrier is able to eliminate pores’ diffusion effects and reduce deep oxidation. The support for the oxidation from ethylene to an aluminum oxide catalyst is a-aluminum. A large surface area aluminum oxide can disperse active components easily into tiny particles. The barrier function of the carrier can prevent active component particles from becoming sinterable and grow up during the use. This is the most widely-used aluminum oxide carrier. The aluminum oxide supports can be used to disperse precious metals like platinum, rhodium, and other metals.

Aluminum oxide’s aluminum surface acidity combined with the active components form bifunctional catalysts. Platinum-aluminum dioxide catalyst, used for platinum reforming. Aluminum oxide acts not only as a carrier but is also an active component of the catalyst.

Aluminum oxide Powder Price

Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity and market sentiment are also important.
Send us an enquiry to get the best price for aluminum oxide powder. (brad@ihpa.net)

Aluminum oxide Powder Supplier

Technology Co. Ltd. (), is a well-respected aluminum oxide powder manufacturer, and Al2O3 powder supplier. It has over twelve years’ experience. All of our products are available for shipment worldwide.

You can contact me if you’re looking for aluminum oxide powder of high quality. Get in touch You can also send us an inquiry. (brad@ihpa.net)

What does it mean to be an aluminum oxide carrier Aluminum oxide White powder, molded Aluminum oxide, solid is called carrier. It accounts for approximately […]

Continue reading

MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

Titanium Aluminum Nitride Ti4AlN3 Powder has high strength and elastic modulus, high thermal conductivity and electrical conductivity, and good workability.


Technical Parameter of Titanium Aluminum Nitride Ti4AlN3 Powder :

Product NameMFPurityParticle SizeMolecular WeightMelting PointColor
Titanium Aluminum NitrideTi4AlN399%200mesh,
400mesh		N/AN/AGray Black

 

How is Titanium Aluminum Nitride Ti4AlN3 Powder Produced? 
1. Weighing niobium powder, aluminum powder and toner, and then ball-milling mixed powder;

2. The mixed powder into the graphite boat, and then into the reactor, and filled with inert gas, ignition, self-spreading reaction, cooling after crushing, sifting, drying to get Ti4AlN3 ceramic powder. The method has the advantages of fast reaction speed, short synthesis time, low energy consumption, low cost and high production efficiency, and the obtained Ti4AlN3 ceramic powder has high purity. The Ti4AlN3 ceramic powder obtained by the invention can be used in aviation, aerospace, electronic industry and nuclear industry, etc.
 
Applications of Titanium Aluminum Nitride Ti4AlN3 Powder:
MAX has been widely used in nanometer adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields.Ti4AlN3 powder can be used for energy storage, catalysis, analytical chemistry, mechanics, adsorption, biology, microelectronics, sensors, etc.

 

Storage Condition of Titanium Aluminum Nitride Ti4AlN3 Powder :
The damp reunion will affect Ti4AlN3 powder dispersion performance and using effects, therefore, Titanium Aluminum Nitride Ti4AlN3 Powder should be sealed in vacuum packing and stored in the cool and dry room, titanium aluminum nitride can not be exposure to air. In addition, the Ti4AlN3 powder should be avoided under stress.

Packing & Shipping of Titanium Aluminum Nitride Ti4AlN3 Powder :
We have many different kinds of packing which depend on the Titanium Aluminum Nitride Ti4AlN3 Powder quantity.
Titanium Aluminum Nitride Ti4AlN3 Powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Titanium Aluminum Nitride Ti4AlN3 Powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.


MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder插图



 

Titanium Aluminum Nitride Powder Properties

Other NamesTitanium carbide/Aluminum nitride MXene,
Advanced Max/Mxene Powder, Ti:Al:N, Ti4AlN3 powder
CAS No.N/A
Compound FormulaTi4AlN3
Molecular Weight260.449
AppearanceGray to Black Powder
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Thermal ExpansionN/A
  
  

Titanium Aluminum Nitride Powder Health & Safety Information

Signal WordN/A
Hazard StatementsN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
Transport InformationN/A
Inquiry us

Titanium Aluminum Nitride Ti4AlN3 Powder has high strength and elastic modulus, high thermal conductivity and electrical conductivity, and good workability.Technical Parameter of Titanium Aluminum Nitride Ti4AlN3 Powder :Product […]

Continue reading