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What is Titanium Nitride?

What is it? Titanium Nitride ? Titanium Nitride is a compound that has a molecular structure of TiN and a mass of 61.88. TiN powder can be found in yellow-brown colors, but the ultra-fine TiN is black and the TiN crystals are golden yellow. TiN’s melting point is 2950. The Mohs hardness 8-9 is excellent, and it is resistant to thermal shock. TiN has both a higher melting point and lower density than many transition metal nitrides. It can be used in conductive materials, such as electrodes or electrical contacts, for molten-salt electrolysis.
The main features and benefits of Titanium Nitride
There are two types of titanium dioxide (Ti2N2), and one type of titanium tetranitride. Titanium dinitride, a yellow solid, is also known as titanium nitride. In boiling water, dissolve. Hot sodium hydroxide solution will release ammonia. The properties of titanium Tetranitride are very similar to that of titanium dioxide.
It is possible to make it directly by reacting titanium with nitrogen at 1200 C. It can be made by using a vapor-deposition process of titanium tetrachloride (nitrogen) and hydrogen mixed gases. Titanium dinitride results from heating titanium metal in nitrogen, ammonia, at 900 to 1000°C. Titanium tetranitride results from heating titanium tetrachloride with ammonia at 1000oC.

Titanium Nickel Nitride Properties
Other Titles	Tinite, TiNite, TiN powder, nitridotitanium
No.	25583-20-4
Combination Formula	TiN
Molecular Weight	61.87
Appearance	Brown Powder
Melting Point	N/A
Boiling Point	N/A
Density	5.24 g/cm3
Solubility of H2O	N/A
Exact	61.951

Titanium Nitride Nitride TiN powder CAS 25583-20-4

Titanium Nitride and its applications
1. For metal edges, titanium nitride is widely used to protect against corrosion of tools like drills and milling cutters. It can also be used to prolong the life of these machines by up to three times.
2. Because of its metallic luster it is used often as an ornament for clothes and automobiles. As an outer coating nickel (Ni), chromium(Cr) are often used to plat the substrate for packaging pipes, door and window hardware.
3. It is used in aerospace, military, as well to protect bicycles and motorbikes’ sliding surfaces, and the shock-absorbing shafts on remote-controlled toys cars.
4. The FDA approved material is non-toxic. It can also be used in medical devices. For example, it can maintain the sharp edges of scalpel blades.
5. As a conductive barrier between metal contacts and active devices, titanium nitride film can be used in microelectronics. It is possible to make a good conductive connection by diffusing the film onto metal silicon.
6. This “barrier” metal also has the mechanical and chemical properties of ceramics. It is heavily used in 45nm chip designs to increase transistor performance. By combining titanium Nitride with a gate Dielectric Layer (eg, HfSiO), a battery field that uses titanium nitride can achieve a higher dielectric constant, lower leakage and higher drive currents, as well as achieving the same or higher threshold voltage. 7. The high biological stability extends the application field of this alloy to bioelectronic electrodes, such as subretinal prosthesis projects and microelectromechanical systems (biological microelectromechanical systems) in biomedicine, making smart implants or in vivo biosensors Able to withstand severe body fluid corrosion.
The main supplier of Titanium Nitride
Tech Co., Ltd. () is a professional nitride 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.
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What is it? Titanium Nitride ? Titanium Nitride is a compound that has a molecular structure of TiN and a mass of 61.88. TiN powder […]

SLMI Sodium Lauroyl Methyl Isethionate CAS 928663-45-0

About Sodium Lauroyl Methyl Isethionate:
Sodium Lauroyl Methyl Isethionate has the characteristics of rich and fine foam, low degreasing power, low irritation to skin and hair, and good biodegradability.
Tungstenmolybdenummetals is a trusted global Sodium Lauroyl Methyl Isethionate. Feel free to send an inquiry to get the latest price of Sodium Lauroyl Methyl Isethionate if you would like to buy Sodium Lauroyl Methyl Isethionate in bulk.

Product Performance of Sodium Lauroyl Methyl Isethionate:
Sodium Lauroyl Methyl Isethionate can improve the combability and softness of the hair, and its mild decontamination performance makes the skin comfortable after washing.

Technical Parameter of Sodium Lauroyl Methyl Isethionate:

Product Name	Short Name	Purity	PH	Odor	Appearance
Sodium Lauroyl Methyl Isethionate	SLMI	77%-85%	NA	Slight characteristic odor	Pan white granular

Applications of Sodium Lauroyl Methyl Isethionate:

Sodium lauroyl hydroxymethyl ethanesulfonate is a mild anionic surfactant, and has fine, long-lasting and lasting foam performance, strong cleaning ability and fast foaming speed. It has good water solubility and can be used as main surfactant or sub-surfactant in transparent formulation system. The pH value is between 4.5 and 6.5, which is weakly acidic, which is close to the pH value of the human body. It has high biodegradability, good compatibility, and can be compounded with most surfactants. It can be used as a main surfactant or sub-surfactant in a sulfate-free formulation system. It is widely used in personal washing and skin care products such as shower gel, shampoo, facial cleanser, hand soap, shaving foam, baby bath products, beauty soap and so on.

Packing & Shipping of Sodium Lauroyl Methyl Isethionate:
We have many different kinds of packing which depend on Sodium Lauroyl Methyl Isethionate quantity.
Sodium Lauroyl Methyl Isethionate packing: 1kg/bottle, 25kg/barrel, or 200kg/ barrel.
Sodium Lauroyl Methyl Isethionate shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

SLMI Sodium Lauroyl Methyl Isethionate CAS 928663-45-0插图

SLMI Sodium Lauroyl Methyl Isethionate Properties
Other Names	N/A
CAS No.	7381-01-3
Compound Formula	RCOO-C2H4SO3Na
Molecular Weight	N/A
Appearance	Gel-like paste
Melting Point	N/A
Boiling Point	N/A
Density	N/A
Solubility in H2O	N/A
Exact Mass	N/A
SLMI Sodium Lauroyl Methyl Isethionate Health & Safety Information
Signal Word	N/A
Hazard Statements	N/A
Hazard Codes	N/A
Risk Codes	N/A
Safety Statements	N/A
Transport Information	N/A

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About Sodium Lauroyl Methyl Isethionate:Sodium Lauroyl Methyl Isethionate has the characteristics of rich and fine foam, low degreasing power, low irritation to skin and hair, […]

Is Boron Stable Or Unstable?

Boron is an element with one fewer electron than carbon, so it is prone to being destroyed by oxygen. This property makes boron particularly dangerous for pharmaceutical use, but it also gives the element special properties that make it useful in the nuclear industry (see thermal neutron cross section#Typical cross sections).

Borane and Carboranes

Borane is the simplest natural boron compound; it contains a single boron atom in a cage with a hydrogen atom on each end of the cage. It can be found in air as diborane B2H6 and as a series of pyrolysis products that are primarily pentaborane, B5H9, and decaborane, B10H14.

Carboranes, on the other hand, are polyhedral boron hydride clusters that include carbon atoms. They are most commonly encountered in icosahedral dicarbaborane, but there are also meta-carborane and para-carborane variants that include different carbon atoms.

Low-Valent Boron Compounds

For more than a century, scientists have been trying to develop boron compounds that don’t involve oxidation in the standard +3 oxidation state. This would allow researchers to use the boron atom as a Lewis acid and a nucleophile, which could open up new avenues for creating both organic and inorganic boron-containing materials.

But until recently, it wasn’t possible to use boron in this way. Instead, chemists mainly tried to coax boron into the standard +3 oxidation state by using boron halides as solvents.

But a few years ago, Makoto Yamashita and Kyoko Nozaki flipped the chemistry on its head by creating a new compound in which boron acts as a nucleophile instead of an electrophile. This was a breakthrough that opened up pathways to a lot of new chemical developments in the field, including boron-containing drugs.

Boron is an element with one fewer electron than carbon, so it is prone to being destroyed by oxygen. This property makes boron particularly dangerous […]

Manganese Phosphide

manganese phosphide is a hard and durable coating that improves performance in a variety of industries. It is typically used for metal parts that operate in demanding applications and require extra wear-resistance and toughness.

In addition to its durability, manganese phosphate is also a popular choice for finishing metal parts because it is insoluble and increases the surface of the part’s crystalline finish. It also helps reduce the amount of corrosion and enhances lubrication.

Abstract:

Generally, organic templates are used to synthesize layered manganese phosphates by solvothermally or hydrothenmally forming a two-dimensional layer of manganese phosphate with the organic template sandwiched between the two layers. The ammonium groups of the organic template are hydrogen bonded to the manganese phosphate layer by the water molecules (see FIG. 1).

The inorganic manganese phosphate layer is surrounded by two layers of triply protonated TREN molecules with their ammonium groups pointing inwards, and a third layer of bilayer water molecules. The bridging O2 and O3 atoms are bonded to the manganese phosphate, but the terminal O4 is not.

MnPi is a 3D superstructure with asymmetric out-of-plane Mn centers that are accessible and preferential oxidation sites for MnII/III oxidation to form active intermediates in neutral aqueous solutions, as demonstrated by structural, spectrometric, and electrochemical studies. The asymmetric geometry of the Mn centres allows for J-T distortion to be tolerated and stabilizes the key MnIII intermediate in the MnPi.

These properties make manganese phosphide an excellent material for developing high-performance catalysts that perform in challenging chemical processes. Moreover, the manganese phosphide structure can be tailored for specific applications and the resulting coating is highly resistant to corrosive environments.

manganese phosphide is a hard and durable coating that improves performance in a variety of industries. It is typically used for metal parts that operate […]

what is Molybdenum Lubricant ?

What exactly is Molybdenum Lubricant?

Molybdenum – This natural mineral has been used to enhance the lubricity for mechanical parts over many centuries. It acts as an antiwear layer by drawing itself onto the metal surface. If the additive cannot dissolve in oil, it will be ineffective. You will need a suitable oil lubricant in order to prevent it from clogging filters and passageways.

Molly grease may be found in nearly every part of heavy-duty vehicles. To prevent internal gearing from bind, U-joint manufacturers specify that grease should contain no more than 5% of molybdenum sulfide. Moly grease used on slack adjustment may reduce the equipment’s performance.

Molybdenum grease a type lubricant with low friction but high pressure-absorption capability is one example. It has stick-slip protection and anti-corrosion. Moly grease can be used to press-fit all types of machine components. Moly grease can also be used to prevent gear pitting. This grease can be used to lubricate metal-to–metal contacts and machine parts. It is also useful for the lubrication of threaded and roller bearings.

Molybdenum sulfide also makes a great lubricant. It’s a mixture of molybdenum, sulfur atoms. Through its sulfur atoms, this compound can bind to metal surfaces. Therefore, it prevents any asperities from touching the metal surfaces. MoS2 is another popular molybdenum grease. It has particles sizes from 1 to 100 um. The sliding friction properties of MoS2 are low at 0.1% to 0.1 s.

What exactly is Molybdenum Lubricant? Molybdenum – This natural mineral has been used to enhance the lubricity for mechanical parts over many centuries. It acts […]

The Uses of the CV Calculator

The Cv (coefficient of variation) calculator is a good way to determine the flow rate of a liquid or gas. It takes into account the temperature and pressure of the fluid that is passing through the valve. You can calculate the Cv for a given application by filling in the appropriate variables.

Aside from its use in statistics, the CV is also used in quality assurance to test the accuracy of a process. Educators may use it to compare teaching methodologies, while meteorologists may use it to measure precipitation variability.

There are a lot of other uses for the CV, including in finance and business. For example, it can be a good indicator of the risks and rewards of an asset. Investing in assets with a low CV means a lower risk-to-return ratio. As with any financial decision, be sure to weigh the cost against the potential reward.

While the CV calculator may not be the most accurate way to calculate your flow rate, it does allow you to make a more informed purchase. Often, a product description will mention the minimum Cv value, so you can easily find out if you have a problem.

However, you may have to use your imagination to actually determine the correct CV for your particular application. For instance, if you are dealing with a large volume of gas, it makes sense to use a unit that is close to the actual pressure. Otherwise, you might end up with an inaccurate result.

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The Cv (coefficient of variation) calculator is a good way to determine the flow rate of a liquid or gas. It takes into account the […]

What is Inconel 718?

What is Inconel 718? Inconel 718 It is possible to nickel-chromium-molybdenum alloy This product is designed to resist pitting and crevice erosion in a variety of harsh environments.

This nickel-steel alloy has exceptional yield, tensile, creep fracture and other properties at high temperatures. The nickel alloy is versatile and can be used from low temperatures to long-term, 1200degF use.
Inconel 718 has one distinctive feature. It contains niobium to allow age-hardening. The alloy matrix can be hardened by adding niobium to molybdenum. It is strong without the need for intensive heat treatment. Aluminum and titanium can also be added to popular NiCr alloys to make them more age-resistant.
This nickel-steel mixture is simple to make and can be welded under annealing, precipitation (aging), or hardening conditions.

Inconel 718 Key Properties
Good mechanical properties include tensile and fatigue strength, as well as creep fracture.
Very high yield tensile and creep strength, as well as fracture strength properties.
It is highly resistant to corrosion cracking caused by sulfide stress and chloride stress.
Resistant to water corrosion, chloride stress corrosion cracking
High temperature resistance
Aging hardening is a unique feature that allows heating and cooling to take place during the annealing process, without the possibility of cracking.
Excellent weldability, no aging cracking after welding.

Inconel 718 Powder Properties
Other names	IN718, Inconel 718 Powder
No.	N/A
Formula compound	N/A
Molecular Weight	N/A
Appearance	From grey to black powder
Melting Point	1370-1430 degC
Boiling Point	N/A
Density	8.192g/cm3
Solubility of H2O	N/A
Exact Mass	N/A

3D Printer Nickel Alloy IN718 Pulp

Inconel 718 Powder Application
Inconel 718 is used across many industries including aerospace, chemical processing, marine engineering, pollution control, and nuclear reactors. It is used to make cryogenic storage tanks and components for wellheads. It is a great candidate for manufacturing heat-resistant turbines in the aerospace sector.

What is Inconel?
Inconel is a registered trademark of Special Metals Corporation for the austenitic nickel-chromium-based superalloy family.
Inconel alloys are highly resistant to corrosion and oxidation, and can be used in extreme conditions under heat and pressure. Inconel reacts with heat to form a thick, stable layer of passivated oxygen that protects against further erosion. Inconel has a high temperature resistance and is suitable for applications in high temperatures where steel and aluminum are vulnerable to thermally-induced crystal vacancies. Based on the alloy, Inconel can be strengthened or hardened by precipitation.

For high-temperature applications like:
Inconel 625 These alloys are: Inconel 625., Chronin 625., Altemp625. Haynes 625., Nickelvac625., and Nicrofer 6020.
Inconel 600 These alloys are: N06600 (NA14), BS3076 (BS3076), 2.4816 (NiCr15Fe) (EU), NiCr15Fe8(DE), and NiCr15Fe8(DE).
Inconel 718 Included: Superimphy 718. Haynes 718. Pyromet 718. Supermet 718. Udimet 71.

Inconel 718 Powder Price
Price is affected by many factors, including supply and demand in a market, industry trends and economic activity.
If you’re looking for the best, latest Inonel 718 powder price You can email us to request a quote. (brad@ihpa.net)

Inconel 718 Powder Supplier
Technology Co. Ltd. is a trusted global supplier and manufacturer of chemicals and nanomaterials. They have over 12 years experience in producing super-high-quality chemicals, such as silicon powder.
Send us an inquiry if you’re looking for high-quality Inconel718 powder. (brad@ihpa.net)

What is Inconel 718? Inconel 718 It is possible to nickel-chromium-molybdenum alloy This product is designed to resist pitting and crevice erosion in a variety […]

What is Inconel Alloy Powder

Inconel powder can be confusing if you have ever wondered. Inconel is a durable, extremely hard alloy. Inconel is hydrodynamically similar to nickel particles. The versatility of Inconel makes it a great choice for numerous applications. Learn more about Inconel.

What does Inconel 625 powder mean?

Inconel 625 Powder is a nickel-based superalloy which is resistant to oxidation as well as corrosion. These properties make Inconel 625 powder ideal for industrial applications. But it is not easy to machine. Because of this, it is an excellent candidate for additive production (AM), which allows complex geometry to be manufactured. The most common AM process for Inconel 625, is laser-based powderbed fusion.

The powder of this metal alloy is readily available from many suppliers. The nickel alloy powder is extremely resistant to heat and corrosion. This alloy is suitable for many applications including construction and the aerospace industry. It is also suitable for use in the marine environment. You should use it with extreme caution.

Inconel 625 has a primary purpose: to be more weldable than other alloys. Inconel 625 is more resistant to cracking in welded joints. The alloy has high creep and yield resistance. The application specifications will dictate the composition of the alloy. The standard model will generally contain 58% nickel and 22% chrome.

Inconel 625 has a high strength and excellent resistance to corrosion. It can be used in harsh environments such as seawater, chemical industry, or waste processing. Additionally, Inconel 625 has excellent thermal-fatigue and creep properties that make it an ideal material for many uses.

What kind of alloy is Inconel, and what does it look like?

Inconel is an extremely strong alloy, which is resistant to corrosion, oxygenation and carburization. This makes Inconel a good material choice for both the chemical and aerospace industries. It’s also resistant to heat. Inconel alloys have been used in many aerospace and marine applications including components for jet engines.

Inconel 625, a superalloy made of high-nickel is known as. It’s corrosion-, pitting-, and crevice resistant, so it is a great choice for underwater use. This material is easy to weld, so it’s ideal for wide variety of applications.
Inconel has a similar composition to Monel. This high-performance alloy contains nickel, copper and chromium. The alloys can withstand extreme temperature and other conditions. The alloys are generally annealed, which improves their mechanical and stress-rupture characteristics.
It was created for the first times in December 1932. International Nickel Company was the first to register it. Mond Nickel Company later merged with them in 1928. The company was acquired by Henry Wiggin & Co., Hereford in 1998. The company then acquired Special Metals Corporation. It is an ideal choice for gas turbines due to its outstanding resistance against corrosion.

Inconel alloy 718 is a precipitation-hardenable nickel-chromium alloy that contains substantial amounts of iron, molybdenum, and niobium, and a lesser amount of aluminum and titanium. The alloy has exceptional strength and resistance to high temperatures. This alloy resists oxidation as well as corrosion.

What’s Inconel used to do?

A variety of industrial uses can use Inconel powder. It is a superalloy that has high corrosion resistance and strength at high temperatures. You can make a wide range of components from this superalloy. It’s used in many areas, including heat exchange tubing and rocket components. This material is suitable for cryogenic applications and has a high resistance to oxidation.

Inconel is an alloy of high-performance nickel. It’s a popular material for components of aerospace and gas turbines. It’s also an excellent weldable metal. You can make inconel powder into many shapes, sizes and designs.

This nickel-chromium alloy can be used in many applications such as cryogenic or high-temperature components. It’s easy to make and boasts high fatigue resistance and tensile strengths. It has a very high melting point. This alloy can withstand corrosion and wear. It’s used extensively in many different industries.

Inconel alloy powder can be used for precision, high-volume manufacturing and heavy-duty production. It can be used for rapid-turning operations. The re-dressing life is short. CBN can be treated after only two or three parts, while Alumina needs to be done after all four. About two mm3/mm*s was the removal rate.

Are Inconel and steel stronger?

Inconel alloy, a superalloy made of nickel and has a broad range of uses. This alloy is suitable for high temperatures due to its high ductility. This metal is not easy to machine. Traditional metalworking techniques may have difficulties with it.

Inconel alloy can be used in various industrial environments. It has high yield strength and tensile strength. The alloy has low thermal expansion coefficient and is resistant to corrosion. Inconel is ideal for industrial and aerospace use.

The Inconel alloy 740H, which is nickel-based, can be found here. This alloy was created by the Special Metals Corporation. Recent research has shown that Inconel alloy was possible to be manufactured into tubes from Inconel powder. While it was comparable in structural properties to Inconel740H, its microstructure stability was superior.

Inconel740H can also be used as a weldable alloy. It has proven to be a good choice for welding joints. It is similar in mechanical properties to that of steel but it is stronger than steel. This material is excellent for aerospace applications because of its high tensile force.

The effects of plasma-sprayed coatings over Inconel-718 were also examined. Plasma-sprayed coatings of nickel-based superalloys showed an improvement in their wear resistance. The wear resistance of a combination of 40 percent TiO2 (and Al2O3) was significantly improved. In addition, Sharma et al. Study of the effect of electron surface melting in Inconel-718.

Why does Inconel cost so much?

Inconel is an aerospace-, chemical processing, offshore and energy industry favorite. The alloy’s strength, corrosion resistance and high temperature resistance makes it ideal for numerous applications. INCONEL’s drawback is its difficulty in working with. A skilled machinist is required to cut the metal. Special CNC cutting tools are required for this metal. The outer layer of the Inconel alloy can harden too rapidly, which causes it to become deformed.

Inconel costs more than any other alloy made of stainless steel and monel because it has a high nickel/chromium level. Due to its cost, Inconel is limited in use within the oil-and gas industry. But, it’s widely used in natural-gas production processes, such as line steel transfer pipe.
Inconel’s diffuser case is one application. Diffuser is the area that will experience the most pressure during combustion. Inconel was developed to eliminate cracking in the casings of the old alloy. It can be used for boilers as well as ferrules. This alloy is not only resistant to high temperatures, but also resists oxidising acids.

In the nuclear industry, Inconel alloy can also be used. Inconel alloy has high strength and resistance to oxidation making it ideal in high-pressure environments. It’s a common choice for many industrial components. It is used in aviation and marine applications.

Technology Co. Ltd. (), is a reliable inconel alloy powder manufacturer and supplier. We have over 12 years experience. All of our products are available for shipment worldwide.

Send us an enquiry if you’re looking for powdered inconel alloy. (brad@ihpa.net)

Inconel powder can be confusing if you have ever wondered. Inconel is a durable, extremely hard alloy. Inconel is hydrodynamically similar to nickel particles. The […]

What is Molybdenum Silicide?

What is it? Molybdenum Silicide ? Molybdenum Disilicide is an organic compound with the chemical composition MoSi2. It is a grey metallic solid. Although insoluble in most acids it is soluble in nitric acid and hydrofluoric acid. 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 coatings and integrated electrode films.
Molybdenum Siicide:
MoSi2 (intermediate phase) is the most silicon-rich in the Mo–Si binary alloy system. It’s a Dalton type intermetallic compound of a 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 molybdenum are 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 quartz glass (SiO2) that has been heated to high temperatures. This prevents continuous oxidation. SiO2 fused at 1710degC to form molten droplets. 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 long periods in temperatures between 400 and 700 degrees C due to its strong oxidation at lower 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 Weight	153.859261

Molybdenum Silicon MoSi2 MoPowder CAS 12136-876-6

Molybdenum Silicide:
Molybdenum disilicide can be used in high-temperature anti-oxidation coatings, integrated electrode films and structural materials.

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 other metals.
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.
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.
Automobile industry: engine parts, turbocharger rotors and valve bodies for automobiles.

Molybdenum Silicide’s main supplier
Tech Co., Ltd. () is a professional silicide for 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

What is it? Molybdenum Silicide ? Molybdenum Disilicide is an organic compound with the chemical composition MoSi2. It is a grey metallic solid. Although insoluble […]

Application scope of instant sodium silicate

What is sodium silicate and
Sodium silicate, which can be described as a soluble alkali-metal silicate material that is composed of silica and alkali oxides. More than 50 deep-processed sodium silicate products are available in economically advanced countries. Some of them have been used in high tech, precision, and cutting-edge areas.

Application areas of sodium silicate
1. You can paint the surface to increase its resistance to weather. You can increase the strength, compactness, flexibility, resistance to frost, and weather resistance of porous materials, such as clay bricks and cement concrete.
2. Reinforce the soil. Water glass and calcium chloride solution can be alternately injected under pressure into the soil. The resulting silic acid gel solidifies in humid conditions due to the swelling status of the soil-absorbed water.
3. Use a waterproofing agent that is quick-setting.
4. Cracks in brick walls can be repaired. You can mix water glass, granulated blast oven slag powders, sand, and sodium fluorosilicate to a desired proportion. These can then be pressed directly into the brick wall cracks, which can act as bonding or reinforcement.
5. As an outer surface for fire doors, sodium silicate solution can be used.
6. It can be used for the manufacture of acid-resistant cement to encapsulate furnace linings.
7. It is used to produce silicate products in the chemical industry, such as silica gel.
8. It is an indispensable raw ingredient in detergents, such as soap and washing powder.
9. Dyeing auxiliaries for the textile industry, including bleaching, dyeing, and sizing.

Tech Co., Ltd. is a professional supplier boride powder. We have over 12 years of experience in chemical products development and research. We accept credit cards, T/T and Paypal payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
Send us an inquiry if you’re looking for instant sodium silicate of high quality.

What is sodium silicate and Sodium silicate, which can be described as a soluble alkali-metal silicate material that is composed of silica and alkali oxides. […]

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