Tag: application

The Applications of Zirconium Diboride Powder

Overview of Zirconium Diboride Pulver
Zirconium diboride (ZrB2) This is a type of high covalent ceramic material with hexagonal crystal structures. It is an ultrahigh-temperature ceramic (UHTC) that has a melting temperature of 3246degC. It is a very low density at 6.09 g/cm3 (though it may have a higher density due to hafnium inclusions) and has excellent high-temperature resistance, making it suitable for high-temperature aerospace uses such as rocket propulsion or hypersonic flight. It is an uncommon ceramic that exhibits high thermal conductivity and electrical conductivity.
Zirconium boride is a gray-colored crystal found in nature. Zirconium biboride is composed of three components: zirconium boreide, zirconium diboride and zirconium tribromide. Only zirconium tribromide is stable across a wide temperature range. The industrial production uses a lot of zirconium boride. Zirconium dioxide is a hexagonal or gray crystal, powder, or crystal with a melting temperature of 3040. Zirconium dioxide is highly resistant to high temperatures. It also has high strength at high and normal temperatures. High resistance to high temperatures, good shock resistance and low resistance to oxidation. With metallic luster. It has a metallic appearance. It has a slightly lower resistance than zirconium. After heating, the material can be stable at all temperatures. It can be sintered at lower temperatures, despite having a high melting point.

Zirconium Diboride ZrB2 Powder CAS 12045-64-6

What are the applications of Zirconium Diboride Powder
As science and technology advances rapidly, supersonic aircraft, such as long-range rockets, long-range missiles and spaceships, are becoming more efficient and safer. The aircraft friction with the atmosphere generates a lot of heat. First, improve the high-temperature resistance for aircraft materials including refractory materials, carbides and carbon-carbon material, as well as borides. Zirconium-diboride ceramics are used widely in many fields due to their high melting point and high hardness.
Zirconium Diboride is a strategic material that has high hardness and high thermal conductivity. It also has good oxidation resistance, corrosion resistance, and oxidation resistance. It is used mostly in thermal protection systems and high-temperature electrodes.
Zirconium Diboride can be used in aerospace as a high temperature resistant material. This material is particularly well-suited for the surface and construction of rolling bearing balls.
Zirconium boride is an ideal candidate material to make thin-film electronic components for sensors, actuators, and microsystems operating at high temperatures. This is due to its metal-like conductivity as well as melting temperature of 325°C.
Zirconium boride is used in special ceramics refractories industries, nuclear industry, aerospace and military industries. Zirconium boride can also be used to coat smooth solid materials and rolling balls.
Carbon fiber reinforced zirconium boride composite with high density is available, while silicon carbide-reinforced Zirconium boride composite can be brittle and subject to catastrophic damage.
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Overview of Zirconium Diboride Pulver Zirconium diboride (ZrB2) This is a type of high covalent ceramic material with hexagonal crystal structures. It is an ultrahigh-temperature […]

Properties and Applications of Ti6Al4V TC4 Powder

Introduction to Ti6Al4V TC4 Powder Material for the TC4 titanium alloy Also known as Ti-6Al-4V – titanium alloy It is a member of the (a+b), type titanium alloy. It is characterized by good mechanical properties, high stability, good toughness and plasticity, as well as high-temperature deformation performance. Hot pressure processing, quenching and ageing can make it more robust. Heat treatment can increase the strength by about 50% to 100% over annealing. It is strong at high temperatures and can operate at 400-500 degrees for a long period of time.
TC4 has excellent low-temperature performance. It is still strong below -196 so it can be used to make low-temperature highpressure vessels like liquid hydrogen fuel tanks for missiles and rockets.

Physical properties of Ti6Al4V Powder, TC4 powder
Material for the TC4 titanium alloy It has lightweight, excellent mechanical and corrosion resistance properties as well as biocompatibility. It has low thermal conductivity, and is not magnetic.
Titanium-based metal It is a new type or metal whose properties are affected by other elements, such as carbon, nitrogen, hydrogen and oxygen. It generally has:
1, High strength . Titanium has a density of 4.51g per cubic centimeter. This is less than half the steel’s. The density of pure Titanium is comparable to ordinary steel. Some high-strength, titanium alloys have a greater strength than alloy structural steel. This means that titanium alloy’s specific strength (strength/density), is significantly higher than those of other metallic structural metals.
2, High thermal strength . The titanium alloy can maintain its required strength at medium temperature and can operate at 450500 for a prolonged time.
3, Excellent resistance to corrosion . Titanium alloy can be used in humid conditions and seawater. Its corrosion resistance is superior to stainless steel pitting corrosion, acid corrosion, stress corrosion especially strong Alkali, chloride and chlorine organic matter.
4, good low-temperature performance . Titanium alloys are capable of maintaining their mechanical properties at ultra-low and low temperatures. TA7 is a high-performance titanium alloy with low gaps and good low-temperature performance. It can also maintain some plasticity below -253. Also, titanium alloy can be used as a low-temperature structural material.
5, Chemical activity high . Titanium exhibits high chemical activity. It can be used to react with oxygen and nitrogen as well as hydrogen, CO, CO2, CO2, water vapour, ammonia and other elements in the atmosphere. If the carbon content in titanium is higher than 0.2%, hard TiC forms in titanium. At high temperatures, a hard TiN is formed. Titanium can absorb oxygen and form hardening layers if its carbon content is greater than 600. High temperatures can cause a hardening layer to form. This is due to an increase in hydrogen. Inhalation can make the surface hard brittle to a depth of 0.1-0.15mm. The hard brittle can also reach 20%-30%. It has a strong chemical affinity and is easily adhered to the friction surfaces.
6, Thermal conductivity small elasticity . The thermal conductivity in titanium is 1/4 of nickel, 1/5th of iron, and 1/14th of aluminum. Different titanium alloys have a different thermal conductivity at around 50%. The elastic modulus is half of that of steel. However, titanium has poor stiffness. It is not suitable to be used in thin-walled or slender parts.

Ti6Al4V Powder Properties
Other Names	Ti6Al4V powder, TC4 powder
CAS No.	N/A
Formula compound	TA0,TA1,TC4,TC4 ELI,TC11,TC17,TC18,TC21,TA7,TA12,TA15,TA17,TA19, Ti40,Ti60,TiAl(Ti36Al,Ti48Al2Cr2Nb)
Molecular Weight	N/A
Appearance	grey powder
Melting Point	N/A
Boiling Point	N/A
Density	N/A
Solubility of H2O	N/A
Exact Mass	N/A

3D printing Ti6Al4V Powder

Applications of Ti6Al4V TC4 powder
Ti6Al4V has many uses in high-performance engineering, including aerospace, automotive, medical device manufacturing, and other areas.
Aerospace: Components for jet engines
Manufacturing: Industrial turbines
Car: muffler
Medical: implants, artificial bones
In the petrochemical sector: The TC4 Titanium rods are inert and extremely resistant to corrosion. The electrolyte for electrolytic Mn02 is a neutral MnSO4 solution. Therefore, the electrode must be resistant to sulfuric corrosion. Telegraph machines made of graphite and lead alloy have a bad effect. The anode becomes semi-permanent after switching to titanium.
The rods of TC4 titanium alloy are resistant to almost all organic acids, organic media and except formic and oxalic acids. Additionally to methanol resistance, titanium is also resistant to the corrosion of organic alcohols, aldehydes and ketones.
Acetaldehyde, for example, is the main ingredient in acetic acids. The corrosion problems of stainless steel equipment are caused by acetic, acetaldehyde and chloride. Titanium material is used to fix this problem in acetic Acid production. For example, acetone can be made from propylene or can be produced using titanium production facilities. Japan built a plant capable of producing 30,000 tons per year of acetone. It also used 40 tons of Titanium.
TC4 Titan rods are also resistant to wet H2S and wet SO4 gas.
In the oil refining business, equipment is frequently corroded by H2S or NH8, sulfide or chloride. However, titanium equipment can resolve this problem. Titanium is used primarily in distillation towers and condensers. Titanium is ideal for ammonia and/or urea production because it resists corrosion.

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Introduction to Ti6Al4V TC4 Powder Material for the TC4 titanium alloy Also known as Ti-6Al-4V – titanium alloy It is a member of the (a+b), […]

The Applications of Stainless Steel 316L Powder

Overview of Stainless Steel 316L Powder
316 stainlesssteel 316L contains more carbon than 316L. This is easy to remember as L stands for “low”. 316L is almost identical in every way to 316L, even though it contains less carbon. Both are affordable and durable.
These alloys are not only chromium or nickel-based, but also contain molybdenum which makes them even more resistant to corrosion. 317L offers even greater corrosion resistance, with a molybdenum percentage of 3 to 4%, compared to the 2 to 3.3% in 316L.
Iron-base alloys that contain enough CHROMIUM to form a solid passive film on the surface.
10.5% is the qualifying Cr concentration to make an alloy Stainless Steel.
316L stainless-steel is extremely resistant to corrosion. It has high toughness, good ductility, and moderate strength. The metal is stain-proof and corrosion-resistant as long the invisible film, also known as passive layer, remains intact. Send an inquiry for the most current price if 3D Printing Stainless Steel SS316L Pulp in Bulk.

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What are the applications of Stainless Steel 316L Stainless Steel Powder?
Like aluminum and titanium stainless steel, it can be used 3D printed complex designs that are otherwise impossible. Due to its strength, stainless can also be used to produce large objects. 3D printing technology will allow stainless steel to be used for even more purposes.
3D-printed stainless metals are just like traditional stainless. They can be used in a variety of applications, including:
Jewelry.
Tools.
Construction applications
Caps for dental work
Metal implants
Industrial applications – Designing functional components
Decorative models, such as keys, medals, and statues.
For military applications.
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Overview of Stainless Steel 316L Powder 316 stainlesssteel 316L contains more carbon than 316L. This is easy to remember as L stands for “low”. 316L […]

Nano Diamond Powder Applications In Various Fields

Nano diamond It was first developed 30 years ago. However, its applications were limited to polishing agent, polycrystalline and other abrasives. The use of nano diamond powder in lubricating oil has increased as people have a better understanding of the properties. The applications of nano diamond powder in lubricating oil, medicine, metal coating, magnetic record system, medicine, and many other fields are still being explored.

Traditional use areas for nano diamond powder:

1. Nano-diamonds, and metal composite coats Plated parts have a 1 to 9-time increase in service life. The coating thickness can be reduced up to 2x. Electroplating is done with standard electroplating equipment.
The average percentage of diamonds found in the metal coat is between 0.3 and 0.5% by weight. Diamond consumption is 0.2g/1 carat/m2 when the coating’s thickness is 1 micron.

2. Nano diamond polishing liquid
It is widely used for semiconductor silicon wafer polishing.

The use of nano diamond powder in new development fields

1. A nano-diamond component is used as a lubricating and cooling oil.
Use of nano diamond in lubricating oils, greases, and coolants is mainly for the machine industry, metal processing. Nano diamond can increase the life of your engine and transmission, and help you save fuel oil.

2. Nano diamond-polymer composite
Use nano-diamond polymer compounds in aviation, automobiles. tractors. shipbuilding. Medicine, chemicals. Petrochemicals. Globe valves. Protective layers. Wear-resistant coatings.

3. Sintered body
The nano-diamonds can be mixed with transition metals in order to make high-strength and very low-porosity diamond-sintered bodies. This can be used for processing soft or brittle materials, with very low surface roughness.

4. Magnetic recording system
You can also use nano-diamonds in magnetic recording devices such as magnetic tapes, magnet disks, and other magnetic media as wear-resistant modifiers or additives. Nano-diamonds can be used to reduce ferromagnetic materials particles, improve recording density, and decrease abrasive wear as well as the friction coefficient.

5. Add to the intermetallic compounds
Intermetallic compounds of copper, tin and zinc containing nano diamonds are suitable for use as friction parts under very difficult working conditions. This is because plastic and liquid lubricating material are often extruded.

6. Medicine
You can also use nano diamond in medicine to treat tumors, gastrointestinal disease, and skin disorders. It is safe, non-toxic and non-carcinogenic. Nano diamond can be used as a super-active adsorbent or bioactive locator to enhance drug efficacy.

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Nano diamond It was first developed 30 years ago. However, its applications were limited to polishing agent, polycrystalline and other abrasives. The use of nano […]

The applications of Tantalum Carbide Powder

Overview Tantalum Carbide Powder
Tantalum carbide granule It is insoluble, nearly insoluble, inorganic acid, soluble, in a mixture acid of hydrofluoric acids and nitric acid and can be broken down. Potassium pyrosulfate is a strong antioxidant, which can easily be melted and decomposed. At room temperature, the resistance is 30O. This indicates superconductivity. (TaC), can be used in powder metalurgical, cutting tools and fine ceramics. Tantalum carbide’s main body is a golden yellow color that can be used for decoration.

Tantalum Carbide TaC Powder Cas 12070-06-3

What are the applications of Tantalum Carbide Powder
Tantalum carbide is used primarily in the manufacture of carbide, capacitors and electronic devices. In order to improve the physical properties of the sintering structures, carbides are commonly added to tungsten/cobalt powder wear (WC / CO).
Tantalum carbide is also used to inhibit the formation of large grains in order to ensure optimum hardness.
It is also used to coat steel mold surfaces in aluminum alloy injection molding. It not only provides wear-resistant, but also low friction surfaces.
Carbides can also be used to create sharp instruments with extreme mechanical resistance. Tantalum carbide is also useful in the following:
1. Cemented carbide
Tantalum carbide plays an important part in the cemented carbid. It enhances alloy properties by increasing fibrous tissue, phase transformation kinetics, and making alloys stronger, more stable, and with better processing deformation capabilities.
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Overview Tantalum Carbide Powder Tantalum carbide granule It is insoluble, nearly insoluble, inorganic acid, soluble, in a mixture acid of hydrofluoric acids and nitric acid […]

Magnesium nitride introduction and application

What is Magnesium nutride? Magnesium-nitride, an inorganic chemical compound with the chemical formula Mg3N2, is part of the cubic crystal system. At room temperature, pure magnesium nitride has a yellowish-green color but contains some magnesium oxide impurities. Magnesium is gray. Magnesium Nitride reacts with ammonia to make it, and is used often as a catalyst.

What does magnesium nitride actually look like?
Magnesium-nitride is often described in yellow. However, we have never seen a yellow residue from the first heat. Students notice the lack of yellow products often and silently skip or ask about the second heat.
Is magnesium nitride water-soluble?
Magnesium-nitrate, a water-soluble source for crystalline magnesium, is compatible with both nitrates (acidic) and low pH compounds. Magnesium compounds containing nitrates are generally water-soluble. Oxidants are also available for nitrate compounds.
Application of Magnesium Nitride
Magnesium oxide can be used as catalyst to synthesise cubic boron trioxide. This was also used in the successful first synthesis.
Robert Wentorf, a 1957 chemist, attempted to convert hexagonalboron nutride into cubic boron nutride. He tried various methods to convert the boron nitride into cubic boron tiride. He tried every theory possible catalyst, including those used in diamond-synthesis. But nothing worked.
He added magnesium to hexagonal-boron nitride [4] later out of curiosity and desperateness. It was discovered that the magnesium contained tiny dark lumps that could scratch polished boron nitride, which was the only known substance at the time.
Wentorf noticed ammonia-like odors in magnesium nitride and moist air. He concluded that magnesium nitride was formed by the reaction between magnesium nitride and boron. This produced magnesium nitride which then acted as a catalyst, converting hexagonal boron nutride into cubic.
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What is Magnesium nutride? Magnesium-nitride, an inorganic chemical compound with the chemical formula Mg3N2, is part of the cubic crystal system. At room temperature, pure […]

Properties and Applications of Amorphous Elemental Boron

What is amorphous elementsal boron (Amorphous Elemental Boron)? It has chemical properties that are more active than the crystalline elemental. Crystalline boron can be used as a cutting tool or drill material, and it is much harder than diamond. A small amount is added to metal smelting. It acts as a deoxidizer, which prevents the metal from becoming oxidized at high temperatures. On the other hand it forms an alloy that improves the metal’s performance.
Amorphous Boron powder is an important source of energy. It is used in the production of composite solid propellants. The calorific values of boron are more than twice those of carbon, aluminum, and magnesium. The value is nearly three times higher than hydrocarbon fuels. It has a lower density than aluminum and the highest volumetric calorific. Boron is the best nonmetallic fuel in terms of energy. Because of its unusual shape and large specific area, amorphous Boron greatly lowers the ignition temperature.

A range of amorphous elements boron:
1. Neutron absorbers and neutralon counters for nuclear power plants
2. Catalyst for medicine and ceramic industry.
3. The ignition electrode in the electronic industry.
4. Solid rocket thrusters require high-energy fuel.
5. Monomer boron can be used in the synthesis and preparation of many high-purity boron compounds.
6. Monomer Boron is used to instill safety gas into automobiles.
7. Monolithic Boron is used for the smelting and processing of special alloy steel.
8. Monomer boron can be used as a raw material to produce boron fibre.
9. Monomer Boron is a gas that can be used to extract molten copper.
10. Monomer Boron can be used for fireworks.
11. Monomer Boron is an important raw material in the production of high-purity, boron Halide.
12. Monolithicboron is used in electricity and semiconductors. It is carbonized at 2300 C, and then it is used for the cathode of the ignition core. It can also be used to make high-quality cathode materials, such as lanthanum boreide.
13. Monolithic boron is a good protective material for the nuclear energy industry. It can also be made to boron steel for atomic power reactors.
14. Boron is the raw ingredient for the production of borane, and other borides. Borane can also be used in rockets or missiles as a high energy fuel.
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What is amorphous elementsal boron (Amorphous Elemental Boron)? It has chemical properties that are more active than the crystalline elemental. Crystalline boron can be used […]

The Applications of Chromium Carbide

What is it? Chromium Carbide ? The inorganic metal chromium carbide has a high melting temperature and is highly resistant to corrosion, wear and oxidation. It can be used in high-temperature environments (1000-1100). Because of its exceptional high temperature performance, it’s widely used in thermal spraying to protect metal surfaces and as an additive in cemented carbide industries.
The key features of Chromium Carbide
Gray powder with metallic shine; Orthorhombic system. Density: 6.68g/cm3. Melting point: 1890. Good wear resistance, corrosion resistance and resistance to oxidation in high temperature environments (1000-1100). It is a part of a metal ceramic. Chromium carbide is strong in high-temperature oxidation resistance, corrosion resistance, and thermal properties that are similar to those of steel. It’s an excellent choice for many commercial industries.

Chromium Carbide Properties
Other Titles	chrome carbide, chromic carbide, trichromium dicarbide, Cr3C2 or chromium Carbon, powder
No.	12012-35-0
Combination Formula	Cr3C2
Molecular Weight	180.01
Appearance	Gray to Black Powder
Melting Point	1895 degC
Boiling Point	N/A
Density	6.68 g/cm3
Solubility of H2O	N/A
Exact Mass	179.821536

Chromium Carbide Cr3C2 Powder CAS 12012-35-0

The manufacturing of Chromium Carbide
Method for metal chromium pulverization by electrolytic chromium: The carbon noir is crushed with electrolytic chromemium in a proportion of 13.5% – 64% (mass) to form 325 mesh metallic chromium. This is more than the combined carbon content of 11.33%). Dry mixing the raw material with a ball mill. Add 1% to 3.3% of stearic acid to the mold as a lubricant. You should press mold with more than 1T/cChemicalbookm2 of pressure. Place the powder that has been pressed into a graphite crucible or plate. Heat it in a Taman furnace (or an induction heating furnace) to 1500-1700degC. Then, let it cool in a hydrogen stream to make Chromium.
What applications are Chromium Carbide
1. It can also be used as an addition to cemented caride (such as the tungsten-based cemented caride grain refiner), which is useful in mining, machining, and so on.
2. It can also be used as an additive to welding material. It can be used as a welding rod to cover the Chemicalbook surface of some types of mechanical equipment (such a ball mill, coal mill, jaw plate, etc.). It can be used to increase the service-life of many other equipment.
3. There are many thermal spray materials that can be used in metal surface protection technology. Ding Hong from Chemicalbook edited this information.
4. For chromium carbide ceramics. To form a meltblown coating on ceramics and metal surfaces, coarse-grained chrome carbide can be used. It has the properties of wear resistance, heat resistance, corrosion resistance, and more. It is widely used in aircraft engines, petrochemical mechanical devices and other applications to increase mechanical life. It can also be used to spray semiconductor films.
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What is it? Chromium Carbide ? The inorganic metal chromium carbide has a high melting temperature and is highly resistant to corrosion, wear and oxidation. […]

The Applications of Molybdenum Silicide

What is it? Molybdenum Silicide ? Molybdenum Disilicide is an organic compound that has the chemical composition MoSi2. It is a grey metallic solid. Although insoluble in most acids it is soluble in hydrofluoric acid and nitric. The radii of these two atoms do not differ much, and their electronegativities are very close. They also have properties that are similar to metals and ceramics. Molybdenum Disilicide can be used as an electrically conducting material. A passivation layer made of silicon dioxide can also be created on the surface at high temperatures to prevent further oxidation. It is used to make high-temperature antioxidation coating materials, integrated electrode film, structural materials and reinforcing agents in composite materials.
Molybdenum Siicide:
MoSi2 (intermediate phase) is the most silicon-rich in the MoSi binary alloy system. It’s a Dalton type intermetallic compound of fixed composition. This high-temperature material has great performance because of its dual properties of ceramics as well as metal. Excellent high temperature resistance to oxidation, it has a oxidation resistant temperature of 1600. This is equivalent in SiC. It also has a moderate density (6.24g/cm3), low thermal expansion coefficient (8.10-6K-1), good electrical conductivity, high brittle-ductile temperature (1000), which is below ceramic-like hardbrittleness. It is soft and plastic-like metal above 1000. MoSi can be used in integrated circuits, heating elements and high temperature antioxidation coatings.
MoSi2 consists of silicon and molybdenum bonded with metal bonds. In MoSi2, silicon and silicon are also bonded via covalent bonds. Molybdenum Disilicide is a gray tetragonal crystalline. It is insoluble within common mineral acids (including aqua regia), however, it is easily soluble in mixed acids nitric acid or hydrofluoric acid. It can be used to heat elements in high-temperature (1700) environments due to its high resistance to high-temperature oxygenation.
An oxidizing atmosphere forms a protective layer on the surface dense quartz glass (SiO2) that has been heated to high temperatures. This prevents continuous oxidation. SiO2 fused to form protective films when temperatures exceed 1700degC. It loses its protective power due to the act of expanding its surface. The oxidant acts on the element and forms a protective film. This element can not be used for prolonged periods in temperatures between 400 and 700 degrees C due to its strong oxidation at low temperatures.

Molybdenum Silicide Properties
Other Titles	molybdenum disilicide (MoSi2 Powder)
No.	12136-78-6
Combination Formula	MoSi2
Molecular Weight	152.11
Appearance	Gray to Black Powder
Melting Point	1900-2050 degC
Boiling Point	N/A
Density	6.23-6.31 g/cm3
Solubility of H2O	N/A
Electrical Resistivity	0.0000270 – 0.0000370 ohm-cm
Specific heat	0.437 J/g-degC (23 degC)
Tensile Strength	185 MPa
Thermal Conductivity	66.2 W/m-K (23 degC)
Thermal Expansion	N/A
Vickers Hardness	900-1200
Young’s Modulus	N/A
Exact	153.859261

Molybdenum Silicon MoSi2 MoPowder CAS 12136-876-6

Molybdenum Silicide:
Molybdenum disilicide can be used in high-temperature anti-oxidation coatings, electric heating elements and integrated electrode films.
1. Energy chemical industry: Electric heating elements, high heat exchangers of nuclear reactor devices, gas burners. High temperature thermocouples with their protective tubes. Melting vessels and crucibles are used to melt sodium, lithium and lead.
2. MoSi2 and other reactive metal silicides, such as WSi2, TaSi2, Ti5Si3, WSi2, TaSi2, etc. are used in the microelectronics sector. are key candidate materials for large-scale integrated gate and interconnect film production.
3. Aerospace industry. It has been extensively and thoroughly researched and successfully applied as a high temperature antioxidation coating material. This material is especially useful for components of turbine engines such as blades or impellers.
4. Automobile industry: engine parts, turbocharger rotors and valve bodies for automobiles.
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What is it? Molybdenum Silicide ? Molybdenum Disilicide is an organic compound that has the chemical composition MoSi2. It is a grey metallic solid. Although […]

The Applications of Mn2O3 Powder

What is it? Mn2O3 Pulver ? Manganese oxide trioxide, a compound with the chemical formula Mn2O3 has a molecularweight of 157.88. Black cubic crystals. Relative densities 4.50 Water, acetic acid, and ammonium chloride solution are insoluble. It is also insoluble in other inorganic acid. Cold hydrochloric acid is used to dissolve the substance to form a brown solution. Hot dilute sulfuric or concentrated sulfuric acids are used to create a red solution. The solution then undergoes decomposition into MnO2 & manganese Nitrate in hot acid. When heated, it becomes Mn3O4 and releases O2. It is available in two forms: a-Mn2O3 (or g-Mn2O3). The a-type is made by decomposing nitrate carbonate or chloride of divalent Manganese in air and heating to 600800. The g type is made by heating MnO2 in vacuum at 50 for 78 hours. Or by g–MnO (OH). It can be used for the printing and dyeing processes of cloth, as well as in the oxidation process carbon monoxide, organic compounds and nitrate.
The characteristics of Mn2O3 Pulver
Manganese Trioxide is a black cubic crystalline, insoluble and insoluble in water, Acetic Acid, and Ammonium Chloride Solution. It is also soluble with other inorganic acid. When heated to 1080, it becomes Mn3O4 or O2. It can be dissolved in cold water chloric acid to a brown solution or in hot dilute sulfuric and concentrated sulfuric acids to a red solution. When heated, it will decompose into MnO2 & manganese nitrate. It comes in two forms: a–Mn2O3 (g-Mn2O3) and g–Mn2O3.

Manganese Oxide Mn2O3 Powder Properties
Other Titles	Manganese oxide, Manganese(3+) oxide, Manganese sesquioxide, Dimanganese trioxide, Keto-(ketomanganiooxy)manganese, Manganese(3+) oxide, Manganese trioxide, Oxo-(oxomanganiooxy) manganese
No.	1317-34-6
Combination Formula	Mn2O3
Molecular Weight	157.87
Appearance	Black Solid
Melting Point	940 degC (1724 degF)
Solubility of in water	N/A
Density	4.5 g/cm3
Purity	99.50%
Particle size	0.8mm
Boling Point	N/A
Specific heat	N/A
Thermal Conductivity	N/A
Thermal Expansion	N/A
Young’s Modulus	N/A
Exact	173.856
Monoisotopic	173.856

Manganese Oxide Mn2O3 CAS 1317-34-6

The preparation for Mn2O3 Pulver
1. A-Mn2O3a can be prepared by further oxidation/reduction of manganese oxides or by heating divalent Manganese salts in air at 600-800degC. To heat manganese nuitrate hexahydrate, or pure b–MnO2, to a constant temperature at 650°C in air is the best way. Manganese nitrate-hexahydrate is used as the raw material. It must be heated to 190°C to create a solid substance. Pulverization can then be done at 650°C.
2. Preparation of G-Mn2O3In 350mL the solution, in which 2.2g Manganese Sulfate Tetrahydrate was dissolved was stirred vigorously. Next, 34mL dropwise of 3% Hydrogen Peroxide Solution was added, followed by 50mLs of 0.2mol*dm-3 Ammonia Water to create g–MnO(OH). To make the suspension that emits oxygen darken or black, heat for 4 minutes. Then filter and separate the solid. For gMn2O3, the gMnO(OH) was meticulously dehydrated at 250°C for 3 days. Additionally, gMnO2 can be prepared by heating it at 500°C for 78h under less pressure.
Use of Mn2O3 Pulver
1. Mn2O3 can be used for a variety of purposes and is suitable for use in the dyeing and printing of fabrics.
2. It can catalyze the oxidation organic pollutants and of nitrogen oxides.
3. It can be used as a precursor to soft magnetic material.
4. Used as a raw ingredient in the production of lithium ion battery electrode materials.
5. It is the primary and intermediate product of the manganese compound.
The principal supplier of Mn2O3 Pulver
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What is it? Mn2O3 Pulver ? Manganese oxide trioxide, a compound with the chemical formula Mn2O3 has a molecularweight of 157.88. Black cubic crystals. Relative […]

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