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The Applications of Boron Carbide Powder

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Overview of Boron Carbide powder Boron carbide It is low in density and strong, has good high temperature stability, chemical stability, as well as good strength. It is therefore widely used in wear-resistant material, ceramic reinforcement phases and lightweight armor. Boron carbide has a lower cost of production than diamond and cubic-boron nitride. This makes it more popular. It is sometimes used in place of expensive diamonds for polishing and grinding, drilling, and so on.
B4C powder features high purity, low particle size distribution and a large specific surface area. B4C powder can be described as a synthetic superhard materials with a hardness level of 9.46, a microhardness range of 56-6200Kg/mm2, an average of 252g/cm3, a melting point at 2250 degrees Celsius and a ratio of 2.52g/cm3.
Non-magnetic chemical properties, high temperature and low resistance, strong acid, strong pH. Boron carbide has the ability to absorb neutrons, emits no harmful radiation and is not subject to secondary radiation pollution. It is less hard than diamond. Boron carbide, one of the most stable acids, is stable in all concentrated and dilute acid solutions. Boron carbonide is stable below 800°C in an ambient air environment. The boron dioxide, which is the result of oxidation at high temperatures, is lost in gas phase. This makes it unstable and oxidizes to carbon dioxide and/or boron trioxide.
Boron carbide absorbs a large amount of neutrons and does not form radioactive isotopes. It is a great neutron absorber for nuclear power stations. It is used to control nuclear fission's rate. Nuclear reactors use Boron carbide. Used to make controllable rods. Sometimes, it is made into powder because of the larger surface area.
Boron Carbide B4C Powder Cas 12069-32-8
What are the potential applications Boron Carbide powder?
Control nuclear fission by it: It can absorb large amounts of neutrons, without forming radioactive isotopes. It is a good neutron absorber to nuclear power plants. It is mainly used to control the rate at which nuclear fission takes place. The majority of Boron is made into controllable rods for nuclear reactors. However, the surface area increases can sometimes make it into powder.
Abrasive: Boron Carbide has been used for many years as a coarse abrasive. The powder is hard to use in artificial products because of its high melting points, but it can be melted into simple shapes. It can withstand high temperatures. Useful for polishing, grinding, drilling, and grinding hard materials, such as gems and cemented carbide.
Boron carbide is also a coating paint that can be used on warships and helicopters. It is light-weight and resistant to armor-piercing bullets. The hot-press coating forms an overall defense layer.
Nozzle: Boron carbide can be used to make a spray gun nozzle for the ordnance business. Boron carbide is very hard and wear-resistant. It does not react to acid or alkali and can withstand high pressure and high temperatures. Boron carbide is used to make metalborides, smelt boron and boron alloys, special welding and other purposes.
Boron Carbide powder supplier
Tech Co., Ltd. () is a professional carbide powder Over 12 years' experience in chemical products 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



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Hafnium diboride applications and characteristics

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What is hafnium Diboride Powder? Hafnium Diboride is an ultra-high-temperature ceramic that is made from hafnium, boron. It is a unique ceramic with high heat conductivity and conduction. It's a metallic gray color. Hafnium dioxide has a hexagonal structure and a density 10.5 g/cc. It can melt at approximately 3,250 degrees Celsius. Hafnium diboride's resistance to oxidation is affected by temperature and pressure. At 1500°C and 1atm, the protective oxide layer forms. HfB2's antioxidant activity decreases when temperatures rise above 1600degC and pressure drops below 1atm. In these conditions, B2O3 (one oxidation product of HfB2) boils at a higher temperature than B2O3, creating a protective layer of oxide.
Uses of hafnium diboride powder
Because of its strength and thermal characteristics, HfB2 can be used in ultra high-speed reentry aircrafts, such as an INTERCONTINENTAL missile heat shield or pneumatic front. HfB2 has an aerodynamic form and doesn't ablate upon reentry, unlike polymers and composites.
Hafnium Diboride is being considered as a new material to be used in nuclear reactor control rods.
It is also being investigated as a diffusion shield for microchips. The barrier can be as little as 7 nanometers thick if synthesized correctly.
Hafnium diboride powder characteristics :
Hafnium Diboride is an ultra-high temperature ceramic that's made from hafnium, boron. It melts at approximately 3,250 degrees Celsius. It is an unusual ceramic with high heat conduction, electrical conductivity, and the same properties that titanium and zirconium diboride. It is a gray, metallic substance. Hafnium Diboride has hexagonal crystal structures with a molar density of 10.5g/cc and a mass of 200.11g/mol.
How is hafnium Diboride powder manufactured?
These are the steps that enable you to realize combustion synthesis for high purity hafnium Diboride Powder.
1. Mix base ingredients and thinner. Mix base ingredients with thinner.
2. Mix dry with wet
3. The graphite powder should be evenly mixed. The closed pressure vessel is then cooled with circulating waters. The reaction is performed under 0-5mpa pressure, or in a vacuum protected by an atmosphere. By self-propagating burning, raw materials can be transformed into products.
4. Cool the product. It is a mixture between hafnium dioxide and magnesium oxide. To obtain hafnium Diboride powder, magnesium oxide must be removed by picking.
Hafnium diboride powder supplier
(aka. Technology Co. Ltd. (aka. Our company has developed a number of materials. Our company's Hafnium Diboride is high in purity, fine particle size and has low impurity. Send us an e-mail or click on this link Needed products Send an inquiry

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The applications of Spherical Aluminum Oxide Powder

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Overview Spherical Al Oxide Powder
Alumina is an inorganic substance with the chemical formula Al2O3.It is a high-hardness compound and is also called bauxite in mining,ceramics and materials science.It is a white solid insoluble in water,odorless,tasteless,and very hard in nature.It is easy to absorb moisture but does not deliquescence (non-hygroscopic after burning).Alumina is a typical amphoteric oxide (corundum is alpha-shaped and belongs to the most densely packed hexagonal compound.It is an inert compound,slightly soluble in acid and alkali and corrosion resistant. It can be found in organic acids and alkaline solutions but it is nearly insoluble in water.
Spherical Al2O3 Powder CAS 344-28-1
What are the applications of Spherical Aluminum oxide Powder
1.Paints: Wear-resistant paint, porcelain paint, plasma spraying.
2.Ceramics:transparent ceramics, bio-ceramics and alumina ceramics.
3.Petrochemical products: High-efficiency catalysts, catalyst carrier and automotive exhaust gases purification materials.
4.Polishing materials: sub-micron/nano-level abrasive materials,single crystal silicon wafer polishing, precision polishing materials.
5.Illumination: Long afterglow phosphor raw materials and rare earth three-color phosphor raw materialshigh-pressure sodium lamp tubes, LED lights, etc.
6.Electronic Products: integrated circuit substrates and single crystal materials.
7.Cosmetics - cosmetic fillers
8.Inorganic membrane material.
Alumina Al2O3 can perform a variety of dry and wet treatment processes. It can be used to grind any type of workpiece's rough surface. It is the most affordable abrasive. This type of synthetic abrasive, which is water chestnut and sharp, has a hardness that rivals diamond. It can also be used when iron pollution restrictions are high. This abrasive is used to cut the hardest materials. However, it can also make a pebble shape to work with small pieces of workpieces. Because of its high density and sharpness along with its rhombohedral structure it is one the fastest-cutting abrasives.
The main supplier of Powder Spherical Aluminum Oxide
Tech Co., Ltd. () is a professional oxide powder Over 12 years' experience in chemical products 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

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What is Tungsten Disulfide Powder?

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What is it? Tungsten Disulfide Powder ? Tungsten dioxide is an organic compound that has a molecular structure of WS2 as well as a molecularweight of 247.97. It is a fine powder or crystal with a gray metallic appearance. It is part of the hexagonal system with semiconducting properties and diamagnetic. Tungstenite is a natural mineral. This layer structure is simple to dissociate with similar lubricating qualities to graphite. Useful as a Lubricant in Aerosols.
Tungsten Disulfide Powder: The Main Features
Tungsten dioxide is a compound made of tungsten, sulfur and has a chemical formula WS2 as well as a molecular mass of 247.97. It is a black-gray, powder. It looks like tungstenite in the natural world and is a dark gray orthorhombic, crystalline solid. The relative density is 7.10. The relative density is 7.510. It is insoluble in hydrochloric acids and alkali, except for the mixture of concentrated hydrofluoric acid with nitric acid. Soluble in molten alkali, insoluble in alcohol. Density 7.6g*cm-3. It is reducible. It can react with hot concentrated sulfic acid, nitric and other strong oxygenants. It is broken down into tungsten (or sulfur) when heated to 1250 under vacuum. To eliminate excess sulfur, the mixture is heated to 900°C in a stream of pure nitrogen. The residue is tungsten dioxide.
Tungsten Sulfide Properties
Other Titles tungsten sulfide (WS2), tungsten disulphide,
tungsten(IV) sulfide, WS2 powder
No. 12138-09-9
Combination Formula WS2
Molecular Weight 247.97
Appearance Gray to Black Powder
Melting Point 1250 degC
Boiling Point N/A
Density 7.5 g/cm3
Solubility of H2O N/A
Exact Weight 247.895074
Tungsten Disulfide WS2 Powder CAS 12138-09-9
Tungsten Disulfide Pulver's applications
Useful as a lubricant. Higher performance than molybdenum sulfide, lower friction coefficient, and higher compressive strengths. It is best used in conjunction with other lubricants for high temperatures, high pressure, high speeds, high loads, and equipment that runs in chemically active media. Combining other materials with forging and stamping oils can extend the life of the die, and increase the product's finish. Filler material formulated with polytetrafluoroethylene and nylon for self-lubricating parts.
The supplier Tungsten Disulfide Powder
Tech Co., Ltd. () is a professional sulfide 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

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What is In625 Powder?

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What is it? In625 Silk ? Nconel625, an alloy grade, has a density of 8.4g/cm3 as well as a melting temperature of 1290-1350degC. It has excellent resistance against inorganic acids corrosion, and is highly resistant to corrosion in various corrosive media.
These are the key features of Powder in 625
625 is a cubic lattice structure with a face-centered cube. When kept at about 650degC for a long enough time,carbon particles and unstable quaternary phases will precipitate and transform into stable Ni3(Nb,Ti)orthorhombic lattice phase. Solid solution strengthening will allow the molybdenum or niobium components of the nickel-chromium mat to improve the material's mechanical properties but will reduce its plasticity.
The applications In625 Powder
The low-carbon alloy 625, which has been softened and anoanned, is widely used in the chemical industry.
Here are some typical areas of application:
1.Chloride-containing components of organic chemical reactions, particularly when acid chloride catalysts are used
2. Used in the manufacture and maintenance of bleaching tanks and digesters for the pulp and paper industry
3.Absorption tower,reheater,flue gas inlet baffle,fan(wet),stirrer,baffle and flue in the flue gas desulfurization system
4. Used for the manufacture of equipment and components that are used in acid gas environments
5.Acetic Acid and Acetic Anhydride Reaction Generator.
Inconel Alloy In625 Powder Properties
Other Titles INCO 625
No. N/A
Combination Formula Ni Cr Fe Nb
Molecular Weight N/A
Appearance Metallic Powder
Melting Point 1290-1350 degC
Solubility of in water N/A
Density N/A
Purity 99%
Particle size 15-45mm, 15-53mm, 53-120mm, 53-150mm
Boling Point N/A
Specific heat N/A
Thermal Conductivity 9.8 W/m*degC (21 degC)
Thermal Expansion N/A
Young’s Modulus N/A
Exact Mass N/A
Monoisotopic N/A
3D Printing Inconel Alloy In625 Powder
The supplier for In625 Powder
Tech Co., Ltd. () is a professional 3D Printer 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

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The Applications of Stannic Sulfide Powder

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What is it? Stannic sulfide powder ? Stannic sulfuride is a yellow amorphous or crystal of golden yellow. To obtain colored gold, tin scraps or tin alloy are heated together with sulfur and ammonium chlorineide. A yellow amorphous, precipitate (wet). They are not soluble in water. Aqua regia, alkali sulfide (to make thiostannate), strong acid (to make thiostannate and/or hexahydroxystannate), and many other solutions are suitable. The wet product is easily soluble in warm, medium-strength hydrogen chloric acid. However, the dry product is not soluble in this acid.
The key features of Stannic sulfide powder
Tin disulfide (n-type semiconductor material) has a hexagonal CdI2 crystal and a broad band gap of around 2.35 eV. The wider band gap allows it to have excellent optical and electrical properties. It is suitable for holographic recording, electrical conversion System materials, solar cells materials, and anode materials in lithium electronic batteries. Because it has a similar band gap to silicon, it's safe and sustainable. Tin disulfide also has a high absorb coefficient making it suitable for solar cells. It has been a popular research topic for both foreign and domestic experts in recent years. Pigments etc.
Stannic Sulfide Properties
Other Titles Tin(IV) sulfide, tin disulfide, tin dissulphide, tin sulfide,
Tin(4+) dissulfide and SnS2 Powder
No. 1315-01-1
Combination Formula SnS2
Molecular Weight 182.84
Appearance Gold-yellow powder
Melting Point N/A
Boiling Point 600
Density 4.5 g/cm3
Solubility of H2O Insoluble
Exact 183.846337
Stannic Sulfide SnS2 powder CAS 1314-95-0
The applications Stannic sulfide powder
Tin disulfide (SnS2), a two-dimensional van der Waals semiconductor, is non-toxic, easy to make, and abundant in material. Tin sulfide (SnS2) is a semiconductor that is currently in high demand on the market. It is mostly used for research and development and experiments.
Stannic supplier sulfide powder
Luoyang Tech Co., Ltd. is a professional sulfide 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

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How to Produce 3D Printing Metal Powder

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How does 3D printing metal powder work? 3D printing with metal powder is an advanced 3D technology. This 3D printing method uses metal powder to print parts directly from metal. It is most commonly used in complex structure formation and can be found throughout the automotive, machine manufacturing, and shipbuilding industries.

How can I make metal powder for 3D printing?
The fundamental aspect of powder metalurgisty is the manufacturing of metal powders. Different techniques can be used to make powders.
Solid state reduction, electrolysis and chemical methods are the most popular ways to produce metal powder.

Many manufacturers resort to electrolysis and other reduction methods when producing elemental metal particles. These methods aren't suitable for producing alloy powders. However, manufacturers use atomization to create alloy powders. Atomization has the potential to override this restriction.

An alternative method for producing powdered metallic metals is to use electrolysis. Different metals are deposited in sponges or powders by selecting the appropriate composition, temperature and concentration. Following that can be washed, dried, reduced, annealed, and crushed. This produces metal powder that is extremely pure. This method is used for producing high conductive copper powder.

Atomization refers to the method of pulverizing molten metallic into smaller pieces than 150m M. All of the atomization processes have different characteristics. They have all been used successfully in industrial production.

3D Printer Prices

Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity. Unexpected events.
Send us an enquiry to get the best 3D Printing Metal powder prices. (brad@ihpa.net)

3D printing metal powder supplier

Technology Co. Ltd. (), is a trusted 3D Printing Metal Powder manufacturer and 3D Printing Metal Powder supplier. They have over 12 years of experience. All of our products can be shipped worldwide.

You can find high-quality 3D Printing Metal powder here Get in touch You can also send us an inquiry. (brad@ihpa.net)

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Why 3D printing metal powder has good plasticity?

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What exactly is 3d printed metal powder material Powder for 3D printing of metal It must be able to meet strict requirements regarding fine particle size, distribution of particle sizes, fluidity, loose density, and fluidity. Most 3D printers currently use metal powders such as stainless steel and aluminium alloy. Engineering technology's largest and most valuable metal is the iron base alloy. It is often used to create complex structures. AlSi12Mg and AlSi10Mg are two of the main aluminium alloys that can be used to 3D print metal parts. Aluminium silicon 12, a light addition, is used to create metal powders of good thermal properties. Combining silicon with magnesium gives aluminium alloy a higher strength and stiffness. This makes it ideal for applications that have good thermal properties and thin walls. Aluminium alloy with low weight is a popular industry non-ferrous metal structure material. This aluminum alloy has low density, high specific strengths, similar to, or even better than, high-quality steel and excellent plasticity. 3D printing with aluminium alloy can produce parts that are compact and precise, according to research. Its mechanical characteristics are similar to, or even superior to castings. The quality of the parts can be improved by as much as 22%, while its price can be lowered by as much 30%.


How can you 3d print metal powders?
The fundamental aspect of powder metalurgisty is the manufacturing of metal powder. You can prepare metal powders in a variety of ways, including reduction, electrolysis and carbonyl decomposition. There are four main methods to produce metal powders: solid reduction, electrolysis chemical and atomization. To produce elemental metal particles, most companies use reduction and electrolysis methods. These methods aren't suitable for making alloy powders. The atomization technique tends to override this problem. It is used by manufacturers to create alloy powder.

Performance requirements of 3D printing metal powder
Primarily, ceramic inclusions of low purity will reduce performance. Also, they have high melting points and can be difficult to sinter. Powder must not contain ceramic inclusions. Also, it is important to control the nitrogen and oxygen content. The atomization process is the main method of powder preparation for metal 3D printing. This powder is easily oxidized because it has a high specific area. Customers with special requirements for aerospace or other applications have higher standards. This indicator includes the following: The oxygen content of high temperature alloy powders is 0.006% to 0.018%; that of titanium powder is 0.007% to 0.013% and that of stainless powder is 0.010% to 0.025%. Powder flowability is directly related the fluidity. Fluidity can be affected by the size of the powder particles and their distribution. Particle density will affect how uniform the powder is and what proportion is left behind. The powder fluidity will also decrease if water and gas are adsorbed to the particle surface.

The price of powdered 3D printed metal material
Material particle size and purity can affect 3d printed powder's prices. The purchase volume may also impact the powder's costs. Large quantities of powder will result in a lower price. Our company website has the prices for 3D-printed metal powder material.

Powder material for 3D printing of metal
The Advanc3dmaterials Advanced Material Nano Technology Co. Ltd. Luoyang City (Henan Province), China. This is a trusted and reliable global supplier of chemical material. With more than 12 years experience, it can provide high quality chemical and nanotechnology products, such as 3d printed metal, powder material, graphite, sulfide, and 3D printing materials. We are happy to help you find high-quality 3d printed metal powder material that is also cost-effective. Get in touch You can also inquire at any time.

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Nitride Powder

AlN Ceramic Powder Injection Molding Components

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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. Orachemicals 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 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


 

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What Is Stainless Steel Powder?

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For 3D printing, stainless steel powder (low-carbon steel) is an excellent option. It is low in carbon, has high resistance to rust and high sphericity. You can learn about its properties to help you make educated decisions regarding your 3D printer project. You can choose from various grades of stainless steel powder.

The sphericity of stainless steel powder is high

Recently, a new invention was made that allows for the production of high spherical stainless steel powder. This process can be used for many purposes, such as hot investment casting, powder metalurgicy, and injection molding. The method makes it easy and affordable to prepare spherical Stainless Steel Powder.

A gas atomization process is used to produce the powder. This powder is very spherical and has a fast rate of solidification. This process is very valuable for powder metallurgy. It is extremely formable with high sintering ability.

To determine the particle sizes, phase distributions and morphology of a UNS S32205 powdered stainless-steel alloy, this study was done. Its structure was very different to that of as-cast. The surface is extremely smooth, which makes it ideal for many industrial applications.

This powder is an alloy that can be used in 3D printing. Multistage atomization made it possible to control the composition as well as particle size. The alloy was also made more pure by the multistage atomization process. It is now possible to use this powder for 3D printing thanks to its high sphericity.

To analyze the powder, JEOL, XRD and plasma were all used. SEM analysis confirmed that the bulk of the powder is spherical. Some powders were not entirely spherical, and some retained their original form.


Low-carbon steel

Low-carbon stainlesssteel powder refers to a low-carbon grade of stainless steel. A low-carbon powder of stainless steel is made by converting molten steel that contains chromium, carbon and steel into a powder. The powder is then mixed with water to lower the amount of oxygen. After the powder has been atomized, it is heated in an atmosphere that reduces its oxygen content.
A key part of improving resistance to corrosion is reducing carbon content in low cost stainless steel. It increases strength and durability of the material. It is an austenite stabiliser. The clad's resistance to corrosion can be affected by this element. This is why a lower nitrogen level would not be advised.

The low-carbon powders of stainless steel have a variety of properties. These powders can be used for prototypes and large-scale production. These powders are quick to turn around, which is great for engineers. This powder can be used in automotive applications. This powder can be printed and flows very well.

You can make low-carbon powders of stainless steel with large increases in green strength and density. It is made with low-carbon, oxygen and silicon contents. These elements usually weigh less than 0.3%.


It is resistant to rust

Due to its high levels of chromium stainless steel is highly resistant to corrosion. This protective layer may become worn down or damaged, which can allow corrosive substances into the environment below the powder coating. This will cause the metal to rust.

Stainless steel is a key metal that can be used for the production of various metallic objects such as scissors and knives. It is an ideal material to use for this purpose due to its high resistance against corrosion. Rust is inevitable in metals but it can cause expensive damages.

Powder coating is a way to make stainless steel more colourful and change its texture. This powder coating provides corrosion resistance in salty and chlorinated environments. Additionally, this coating improves the metal's resistance to corrosion.

Powder coatings can improve corrosion resistance but also increase stainless steel's attractiveness. To enhance their visual appeal, powder coatings can be applied to railings or other metal objects. An engraved stainless surface with powder coating is more resistant to fingerprints.
The strength and endurance of stainless steel is enhanced by the chromium oxide layer. There are many alloys of steel that make the metal: iron, carbon, and nickel as well as sulfur, sulphur or sulphur and silicone. The metal is protected from corrosion when these elements are combined.


You can use it in 3D printing

One of the most common materials used in 3D printing is stainless-steel powder. While it's not ideal for traditional machining and is therefore unsuitable, stainless can be used for 3D printing metals. This is because of its durability and corrosion resistance. The large surface area of stainless allows for rapid reactions. It is stronger than any other material, such as aluminum.

For 3D printing of powder made from 304 stainless, it is necessary to go through a multiple-stage atomization procedure. This process allows precise control of the O and N element levels in powder. This process increases particle size, and sphericity. This results in 304 stainless.
Ideal for 3D printing: Powder

3D printing can be done on parts with complex designs, or machines that are complicated. It allows you to design your parts more freely and doesn't require any stability. Also, there is no need to support metal 3D-printed components. This makes it easier for you to design. Metalworking is increasing the use of additive manufacture by 30% each year. These benefits include lower production costs and shorter lead times.

A high flow rate is essential for metal powders in 3D printing to optimize its efficiency. The 3D printer can manipulate powders more efficiently if there is a high flow rate. Products printed with powdered materials are thus more stable.


A contract manufacturer

An contract producer of stainless-steel powder provides a wide range of services to its customers. Many OEM processes use stainless steel powder as a component. This metal is also used in bearings, self-lubricating and other applications. Additional operations include CNC machining, oil and resin impregnation and CNC machining.

SMS Group, a global construction company for plants, has agreed to supply Outokumpu with a stainless steel-atomization plant. Outokumpu is to pay SMS Group the price of its stainless-steel product. There will also be an induction melter as well as an atomizer. The plant will have two cyclones. Plants will also have filters that enable them to operate in an inert setting. The plant will be able to measure temperature accurately and not suffer from variations caused by the atmosphere. In early 2022, the plant will be ready for operation. This plant is capable of producing up to 325 tons annually in stainless steel powder.

ASL provides a wide range of powders from stainless steel. All of these powders are corrosion-resistant and abrasion-resistant. You can also order high-pressure gas or water-atomized products from this company. Powders of this nature can be ground or dried by spray drying and heat-treated to various hardness levels. There are many uses for stainless steel powder, such as chemical processing or food processing.


The atomization is done in multiple stages

Multistage Atomization (stainless steel powder) is a method of making stainless steel. It involves the use compressed air jets that break down molten steel and then cool it. This is useful in metalworking, and it has led to the creation of numerous alloys. The atomized particles are high in oxygen, uniformly distributed and generally have an extremely high level of opacity. The metal can affect the shape of their particles.

Multistage Atomization allows for the production of high-performance stainless metal powders, suitable to be used in 3D printing. It allows manufacturers to control O/N compositions as well as the size of powder.

Atomization offers many advantages over traditional manufacturing processes. Controlling the oxygen and particle sizes is one of its most valuable advantages. Although this is a simple method, there are significant energy requirements. You can determine the basic properties of powders using standard testing methods. Particle size can be determined by standard testing methods, such as sieve analysis and sedimentation analyses, along with the gas permeation technique. The ultrafine powder may also be measured using electron microscopy and Xray small-angle scattered methods.

A gas atomization technique that uses heated gas to produce the powder involves advanced gas atomization techniques. These particles become smaller and more uniform due to the heat created during this process. This allows for lower energy consumption, and better yields.


Price of stainless steel powder
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 latest price for stainless steel powder. (brad@ihpa.net)

Powdered stainless steel
Technology Co. Ltd. has over 12 years of experience as a trusted supplier of stainless steel powder. All of our products are available for shipment worldwide.

We can help you find stainless steel powder. Please contact us to send an inquiry. (brad@ihpa.net)

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