Tag: nitride

The Applications of Zirconium Nitride Powder

Overview Zirconium Nitride Powder
ZrN is the chemical formula for zirconium-nitride. Zirconium is a good corrosion resistant, high hardness, good oiliness, and ductility. These properties make Zirconium nitride attractive. It can be deposited as yellow crystalline powder, or as an attractive light golden coating. Zirconium Nitride (ZrN) can be used in many different ways because of its properties.
Zirconium-nitride (ZrN), compounds have crystal structures that change with their composition. The ZrN (or o-Zr3N4 in Zr-N) alloy system has three compounds: ZrN, Zr3N4, and cZr3N4. They have excellent chemical properties and can be used in diffusion stacks, low temperature instruments, etc. not only in three-dimensional integrated electrical coils, but also in metal-based semiconductors. In terms of wear resistance as well as oxidation and corrosion resistance, ZrN compounds are better than pure zirconium. Additionally, they have a higher critical temperature for superconductivity, which makes them very useful superconductors.

Zirconium Nitride ZrN Powder CAS 25658-42-8

What are the uses for Zirconium Nitride Pulver?
Zirconium-nitride powder can be found in hardware, building materials and bathrooms. It is used extensively in architectural decoration, home appliances, jewelry, mobile phones, and other fields. This makes it a highly valuable research object for the decorative coating industry.
These are the areas of application
1.ZrN is used in nano-composite tools and hard alloys.
2.ZrN is used as a high-temperature ceramic conductor material.
3.ZrN is a heat-resistant, wear-resistant powder.
4.ZrN powder is used to reinforce hardware and building materials.
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Overview Zirconium Nitride Powder ZrN is the chemical formula for zirconium-nitride. Zirconium is a good corrosion resistant, high hardness, good oiliness, and ductility. These properties […]

The Applications of Boron Nitride Powder

Overview of Boron nitride powder Boron industrial powder It is a pure white ceramic material that has a hexagonal structure, similar to graphite. Boron nitride can withstand high temperatures of up to 2000°C. Its dielectric strength, depending on its grade, is close to 1000 V/mil. Boron Nitride is hot-pressed as billets. This can easily be made into rods, bars and plates or other custom shapes.

Hexagonal Boron Nitride (BN Powder) CAS 10043-11-5

What are the functions and uses of boron-nitride
1.Release agent and lubricant of metal drawing.
2. Specific electrolysis and resistance material in high temperature.
3.High-temperature solid lubricants,extrusion anti-wear additives,additives for the production of ceramic composite materials,refractory materials and antioxidant additives,especially in the case of corrosion resistance of molten metals,heat-enhanced additives,high-temperature insulation materials.
4.Heat sealing desiccant to transistors and add-ons for polymers, such as plastic resins.
5.Pressed to form boron nitride product shapes. These can be used for high temperature, high pressure, insulation and heat dissipation purposes.
6. Thermal shielding in aerospace
7. It can be transformed into cubic bore nitride by the use of catalysts.
8. The structural materials for the atomic reaction
9.Aircraft,rocket engine nozzle.
10.Insulator for high voltage and high frequency electricity.
11. Materials to protect from neutron radiation
12. The superhard material from boron Nitride processing can be turned into high-speed drill bits and cutting tools for geological exploration or oil drilling.
13.Separation rings for continuous-cast steel in metallurgy.
14. All types of evaporation boat for aluminum plating on capacitor film, picture tubes, and display aluminum plating.
15. Different fresh-keeping aluminum-plated packaging bag, etc.
16.All types of laser anti counterfeit aluminum plating, brand hot stamped materials, all kinds of cigarette labels and beer labels, packaging boxes, cigarettes packaging boxes, etc.
17.The filler used in cosmetics for lipstick is non-toxic,lubricating and shiny.
The c-BN film’s high hardness and transmittance make it ideal for optical applications. It can be used as a coating on optical components and as a Coating for window materials like zinc sulfide (ZnSe), and zinc sulfide (ZnSe).
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Overview of Boron nitride powder Boron industrial powder It is a pure white ceramic material that has a hexagonal structure, similar to graphite. Boron nitride […]

What is boron nitride ceramic material

What is boron-nitride? Boron Nitride crystal is part of the hexagonal crystal systems. It has a structure similar to graphite. Many similarities make it also known as “white graphite”.

Characteristics of Boron Nitride
It is excellent at resisting heat, thermal stability and thermal conductivity. This makes it an ideal heat dissipation and high-temperature insulating material. Boron Nitride is chemically stable, and it is resistant to corrosion from most molten metallics. It is also very self-lubricating. Boron nitride products can be machined up to 1/100mm accuracy and have a low hardness.

P Informance This is boron nitride
Boron nitride can also be used to make crucibles that melt semiconductors and high temperatures containers for metalurgical work, such as high-temperature containers, thermowells, and high-temperature bearings.
The most common form of boron Nitride is graphite-type structures, also known as white Graphite. Another type is called diamond type. Like the conversion of graphite into a diamond, graphite type boron is also possible to be made into diamond-type Boron Nitride at high temperatures (1800C) and high pressure (800Mpa). The boron-nitride’s B-N bond length (156pm), is comparable to that of diamond’s C/C bond length (154pm). It has the same density as diamond. It is similar in hardness to diamond, and it is more resistant to heat than diamond. It is a superhard material that can withstand high temperatures and is ideal for cutting tools, drills, and abrasives.

Boron Nitride Structure
Boron nitride has a hexagonal crystal. This is usually a graphite-type boron nitride. However, there are also amorphous varieties. Other than the hexagonal crystal form of boron carbide, there are other crystal forms. Graphene-like 2D boron nitride crystallines have also been found (similarly to MoS:2D crystals).

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What is boron-nitride? Boron Nitride crystal is part of the hexagonal crystal systems. It has a structure similar to graphite. Many similarities make it also […]

Silicon Nitride structures and properties

Silicon Nitride HTML4 offers two crystal structures: Si3N4 is granular, and B-Si3N4 an elongated crystal. Each of these three-dimensional networks are composed of common verices of [SN4] the tetrahedron. They both belong to the hexagonal system. Their differences lie in the order and number of [SiN4] trihedral layers. The hexagonal ring layer of [SiN4] tetrahedrons arranged in a c-axis orientation, forming the b-phase. In contrast to the two layers of tangible transform and non-hexagonal rings layers that form the phase, the a-phase is composed of two layers of tangible conversion. A phase can dissolve oxygen from a variety of crystal structures. Also, the internal strain for a phase is stronger than that for b phases, which means that the free energy of a Phase is lower than that of the B phase. According to thermodynamics the stability of the b-phase is greater at higher temperatures. Because of its low symmetry, the aphase is very easy to form. At 1500°C, the aphase undergoes reconstruction and becomes the b phase. It is impossible to reverse this transformation, so it is important to have certain process conditions. When the temperature drops below 1350, a-Si3N4 will form. However, bSi3N4 can easily be made at higher temperatures than 1500.

Silicon Nitride properties
Si3N4 describes the molecular structure of silicon nitride. Si is responsible for 60.06% while dint N makes up for 39.94%. Si3N4 is strong because of the covalent bonds between N and Si (of which only 30% are ion bonds), and has high hardness (9 More hardness 9), high melting points and stable structures.
Si-N crystals of silicon nitride are mainly composed of covalent bonds. Because the bonding strength and bonding strength are high, they have a large elastic module (4.7 x105kg/cm2). Although the coefficient of thermal extension is very low, it is high in thermal conductivity. It is therefore difficult to generate thermal stress. The material has excellent thermal shock resistance as well as good thermal shock resistant. The material has good toughness and low mechanical stress at high temperatures. It also exhibits small amounts of deformation at higher temperatures. At 1200 x 1000h the silicon nitride calcimic ceramic has a 2.5g/cm3 dense and is deformed at high temperatures of 0.5%. This also applies to 23 x 7.kg/cm2 (load). It is resistant to oxidation, and provides good insulation.

Silicon nitride does not melt and is sublimated and decomposes under 1900 atmospheric pressure. The specific heat of silicon nitride is 7111.8J/kg. A phase’s microhardness is 1016GPa while the phase in b is 24.532.65GPa. The strong covalent bonds compound means that no liquid phase is formed below the temperature at which it was decomposed (around 1900). Silicon nitride materials are therefore able to be sintered by using oxide additives. The main oxide materials which promote sintering, are Al2O3, Y2O3, etc. and the highest addition can reach 20 percent. It is a reaction process where the SiO2 oxide layer on silicon particles reacts with the additional oxide to create liquid phase. The grain boundary permeates the liquid phase to allow for good diffusion to enable material migration.

Chemical stability of Silicon Nitride
Si3N4 can be used as a thermodynamically stable material. Silicon nitride ceramics may be used as high as 1400 degrees in an oxygen atmosphere, and up to 1850 degrees in a neutral or reducing environment. Si3N4’s oxidation reaction occurs at temperatures above 800C.
Si3N4+3O2=3SiO2+N2.

A dense layer of silica protection was slowly formed over the surface. This prevented Si3N4 from further oxidization. Up to 1600 degrees was the threshold at which weight gained was visible. In humid environments, Si3N4 is much more difficult to oxidize. Surface oxidization begins at 200. This is twice the speed of dry air. Si3N4 in water vapour has an oxidation activation energetic that is lower than the one in oxygen or air. This is because Si3N4 can be reacted with water vapor through SiO2 films.
Si3N4+6H2O=3SiO2+NH3.

Silicon nitride does not react to corrosion. Cu solution cannot be eroded by vacuum, inert atmosphere, or Mg. Silicon solution can weakly react with Si3N4, and silicon solution can wet Si3N4 to form silicide. This allows silicon nitride to rapidly decompose, and also escapes N2. While Si3N4 can withstand alloy solutions like brass, aluminum, nickel and hard steels, it does not corrode well to Ni-Cr and stainless steel.

Other than molten NaOH, HF and Si3N4, silicon nitride exhibits good resistance to chemical corrosion. Si3N4 is able to interact with most alkali, salt, and molten acids that can decompose the silicon nitride.

Silicon Nitride for Refractories.
High temperature ceramics made of silicon nitride are known for their promise as promising materials. They have excellent properties at high temperatures, including high heat strength, wear resistance and corrosion resistance. The strong covalent bond at high temperatures and low diffusion coefficient make Si3N4 ceramics difficult to manufacture. The limitations of equipment and production cost are not easily accepted by the metallurgical sector. This means that research into refractories is often late in its development and does not go deep. While there are many theories based on ceramics there isn’t much in the way of innovation. In the past, silicon Nitride was found as a bonding component in refractories. Fine powder was combined with aggregates like corundum and silicon carbide by nitriding metal Si. This allowed for the combination of refractory materials. Part of the fine powder and silicon carbide aggregate ceramic shed plate are made from fine powder. The nitriding of Si metal to create silicon nitride forms silicon nitride. Combining silicon carbide with silicon nitride is what results in silicon nitride-bonded silicon carbide material. This material can be used for blast furnace bodies and other applications. The material’s performance has been significantly improved. It is much more stable than clay-bonded silicon caride shed plate. The high temperature performance solves bulging problems caused by the oxidation.

Silicon nitride Price
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Silicon Nitride HTML4 offers two crystal structures: Si3N4 is granular, and B-Si3N4 an elongated crystal. Each of these three-dimensional networks are composed of common verices […]

Advantages and applications of aluminum nitride

Aluminum nitride AlN Ceramics Aluminum nitride ceramic material is a refractory, composite ceramic material that has a hexagonal wurtzite. Pure aluminum Nitride is usually blue-white and aluminum Nitride ceramics are typically gray or white.
Aluminum nitride AlN melts at 2800°C and is stable at higher temperatures in an inert environment. It is highly thermally conductive and has good electrical insulation. This combination makes it a valuable advanced material for many applications, including optics and lighting, electronics, renewable energy, and other electronic devices.

Aluminum nitride structure
Aluminum nitride AlN is a covalent bonding substance with a hexagonal crystal structure. The most common methods of preparing aluminum Nitride include direct nitridation (carbothermal reduction), high-energy ball milling and high-temperature self propagating synthesis. Chemical vapor deposition is another popular method.

The preparation method for aluminum nitride clays
Aluminum nitride clays can be prepared in the same way as other ceramic materials. There are three main preparation methods: powder synthesis; molding; and sintering.
As the raw material, aluminum nitride is used to make the final ceramic product. Its purity, size, particles, oxygen content, and other impurities have a significant impact on the thermal conductivity, subsequent drying, and the forming of the final product. It is the outstanding performance of the final product. cornerstone. There are many ways to make aluminum nitride, including direct nitridation or carbothermic reduction, self propagating high-temperature synthesizing, chemical vapor deposition, and self-propagating.

Molding process for aluminum nitride dust
There are many ways to mold aluminum nitride powder. These include traditional molding processes like molding, hot pressing and isostatic press. All of them are possible. All are applicable due to the high hydrophilicity aluminum nitride granules. To reduce the risk of aluminum oxide oxidation, avoid contact with water while molding. Although hot pressing and isostatic presses are capable of preparing high-performance bulk aluminium nitride materials, they cannot be used to meet the rising demand for aluminum substrates in electronic manufacturing. This problem was solved by adopting the casting method to create aluminum nitride clay substrates. The aluminum nitride clays used in electronics manufacturing are also made using the tape casting process.

Aluminum Nitride Ceramics
Aluminum nitride ceramics are also used extensively as a substrate material and as an electronic films material. Aluminum nitride can also be used to coat crucible or other refractory material.
Its numerous excellent properties make aluminum nitride a versatile material. It is a piezoelectric film and has been widely used. As the market develops, the applications of aluminum nitride-ceramic materials will expand. This is becoming more common.

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Aluminum nitride AlN Ceramics Aluminum nitride ceramic material is a refractory, composite ceramic material that has a hexagonal wurtzite. Pure aluminum Nitride is usually blue-white […]

The Chemical Formula For Magnesium Nitride

The chemical formula of magnesium nitride is Mg3N2.

Magnesium nitride, Mg3N2, is an inorganic compound that occurs as a greenish to yellow powder at room temperature and pressure. It is slightly soluble in acid, ether and ethanol.

The chemical formula for magnesium nitride is Mg3N2. It has three atoms of magnesium and two atoms of nitrogen.

Mg3N2 can be prepared by passing dry nitrogen on heated magnesium or by thermal decomposition of the compound in a nitrogen atmosphere. It is a good corrosion-resistant material and has many scientific research applications.

It is used to study the binding of iron to transferrin and a variety of proteins. It has also been shown to augment iron binding and to increase the maximum level of iron loaded on transferrin.

In addition, magnesium nitride was found to have several important biomedical and physiological effects. It was used to augment and then block directly evoked muscle contractions and neuromuscular transmission in mouse isolated phrenic nerve-hemidiaphragm preparations.

Lastly, magnesium nitride has been shown to have a wide range of antibacterial and antifungal activities. It is particularly useful in reducing the growth of bacteria in the environment and is effective against many pathogenic viruses.

As an ionic compound, the formula for magnesium nitride is easy to understand. Generally, you name compounds with the metal first and then with the anion if it is an oxidation state of 1 or 2. If you need to add modifiers to make the compound behave in a different way, you need to show the charge on the cation and the oxidation state of the anion.

The chemical formula of magnesium nitride is Mg3N2.Magnesium nitride, Mg3N2, is an inorganic compound that occurs as a greenish to yellow powder at room temperature […]

The Applications of Aluminum Niitride

What is it? Aluminum Nitride ? Aluminum nitride or covalent bond compounds, chemical formula is AIN, is an atomic structure that is non-toxic, white, or off-white.
Aluminum Nitride has the following main features
AlN can be stored at temperatures up to 2200°C. The strength of AlN at room temperature is very high. With increasing temperatures, it decreases slowly. It is an excellent thermal shock material because it has a low thermal conductivity and small thermal expansion coefficient. It is strong in resisting corrosion to molten steel and makes an excellent crucible material for casting aluminum alloy, pure iron, and aluminum. Aluminum nitride, which is an excellent electrical insulator and has good dielectric properties, is also promising as a potential electrical component. The aluminum nitride coating protects the gallium arsenide substrate from ionization during annealing. Aluminum nitride also acts as a catalyst in the conversion of hexagonal to cubic boron nutride. At room temperature it reacts slowly with liquid water. Aluminum powder can be made in nitrogen atmosphere or ammonia at 8001000. It is white to gray-blue and can be used as a catalyst. It can also be produced by reaction of Al2O3C–N2 system at 16001750. The product is off-white. Or by the vapor phase reaction of aluminum chloride with ammonia. The vapor phase deposition method for AlCl3/NH3 can produce the coating.

Aluminum Nitride Properties
Other Titles	Aluminium nitride
No.	24304-00-5
Combination Formula	AlN
Molecular Weight	40.9882
Appearance	Powders from pale yellow to white
Melting Point	2200 degC
Boiling Point	2517 degC (dec.)
Density	2.9 to 33% g/cm3
Solubility of H2O	N/A
Electrical Resistivity	10-12 10x 10x O.m
Poisson’s Ratio	0.21 to $0.31
Specific heat	780 J/kg-K
Thermal Conductivity	80 to 200 W/mK
Thermal Expansion	4.2 to 5.4 um/mK
Young’s Modulus	330 GPa
Exact Mass	40.9846
Monoisotopic	40.9846

AlN powder CAS 24304 00-5

Aluminum Niitride
The majority of current research is focused on developing a semiconductor-based light emitting device (gallium nutride or alloy aluminum gallium nanonitride) that can operate in ultraviolet light with a wavelength up to 250 nanometers. An inefficient diode can emit light up to 210nm [1] as reported in May 2006. An aluminum nitride single crystal has an energy difference of 6.2eV, measured by the reflection of UV rays. In theory, this energy gap allows waves with wavelengths of around 200 nanometers to pass through. However, commercial implementation presents many difficulties. Aluminum nitride has many uses in optoelectronics. This includes as dielectric layers for optical storage interfaces and electronic substrates. Also, it is used in military applications as a chip carrier with high thermal conductivity.
The properties of the aluminum nitride piezoelectric effects make epitaxial stretching of aluminum nutride crystals a good choice for surface acoustic-wave detectors. The detectors can be placed on silicon wafers. It is difficult to produce thin films reliably in these locations.
Aluminum nitride clays can be used for heat exchangers and high-temperature structural parts.
It can be used to resist corrosion properties of aluminum, iron, and other metals.
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What is it? Aluminum Nitride ? Aluminum nitride or covalent bond compounds, chemical formula is AIN, is an atomic structure that is non-toxic, white, or […]

Silicon Nitride Powder Properties And Applications

Silicon nitride It is an organic substance having the chemical formula SI3N4. Silicon nitride can be used as a structural ceramic material. It has high hardness, lubricity, and wear resistance. Silicon nitride can be very strong, particularly when hot-pressed. This is why it is one of the strongest materials in the universe.

Silicon Nitride Powder Properties

Silicon nitride does not interact with water. Instead, it is slowly hydrolyzed by strong acids to create ammonium salt and silica. It is also easily soluble in hydrofluoric and is incompatible with dilute acids. Strong alkali solutions can slowly corrode silica nitride. Molten alkali can transform silicon nitride quickly into silicate and ammonia.
Silicon nitride has a very high resistance to high temperatures. Its strength can be maintained at a temperature of 1200°C without falling. It won’t melt in heat and it will not decompose after heating. It is very resistant to chemical agents. Silicon nitride has remarkable chemical resistance. It can withstand most inorganic acids, caustic soda solution below 30%, and corrosion by many other organic acids.

Silicon Nitride Powder Applications

The high strength and high resistance of silicon nitride clays are some of its best attributes. It has the highest comprehensive mechanical properties among ceramic materials. It is the original ceramic used in thermomechanical components. This is a potential material. A candidate material.

Silicon nitride Ceramics are used in the chemical sector as wear-resistant, corrosion-resistant parts. They include ball valves and pump bodies, as well as combustion vaporizers, filters and other components.

The silicon nitride clays used in the metallurgical sector are durable, low friction, and self-lubricating. It is stable to most alloy and metal solutions. It can therefore be used for the production of metal material processing tools, including dial mandels, extrusion, wire drawing and transfer dies as well as rollers, transfer rollers and heating element fixtures.

It has excellent characteristics and is used frequently to make bearings, turbine blades and mechanical seal rings. It can improve the quality and efficiency of diesel engines by using silicon nitride clays which are resistant at high temperatures and hard to transfer heat.

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Silicon nitride It is an organic substance having the chemical formula SI3N4. Silicon nitride can be used as a structural ceramic material. It has high […]

How to Produce Magnesium Nitride?

What is Magnesium Nitrode? Magnesium nutride, an inorganic compound with a chemical formula of Mg3N2. It belongs to the cubic crystalline system. Pure magnesium Nitride is a yellowish-green powder at room temperature. However, magnesium nitride that contains a small amount of magnesium oxide impurities can be grayish-white.
Magnesium Nitride’s molar mass is 100.95g/mol. It has a density of 2.712g/cm3. Magnesium-nitride can be completely dissolved into acid and water but is partially dissolved when it is mixed with ether and alcohol.
Magnesium Nitride has a melting temperature of 1500 degrees. Magnesium Nitride, like other metal nitrides reacts with the water to make ammonia. Used as a catalyst. Use acidic or aqueous nonmetallic compounds to react with them to make ammonium salts.

Magnesium oxide is ceramic in its natural state. Magnesium nutride has high resistance to corrosion, which greatly increases production efficiency. Magnesium-nitride has high thermal conductivity as well as high temperature and corrosion resistance. Magnesium-nitride is also important because it can be used as a catalyst to synthesize boron nitrogen.

What does Magnesium Nitride do?
1. This is used to create nitrides of other elements with high hardness and high thermal conductivity. It also provides corrosion resistance and wear resistance. Magnesium nitride was the catalyst in the first successful synthesises of cubic-boron nitride.
2. This is used for high strength steel additives. Magnesium trioxide (Mg3N2) replaces the desulphurized magnesia in construction steel smelting. It is useful to increase steel’s density, strength and tension. Additionally, magnesium nitride (Mg3N2) can be used to reduce the number of additives which helps reduce the cost of production steel.
3. Special ceramic materials can be prepared using this method
4. To make special alloy foaming agents
5. For the production of special glass
6. Catalytic polymer crosslinking
7. This is for the recycling of nuclear waste

How to Make Magnesium Nitride.
Presently, the most common preparation methods for magnesium nitride consist of direct reaction method with magnesium powder, reaction method with magnesium with nitrogen in plasma flow, magnesium coil blast method in nitrogen atmosphere and low pressure chemical gases complementary product method.

G. Soto et.al. Pulse laser deposition allowed for the preparation of amorphous magnesium oxide films with different Mg/N ratios. These methods are difficult to industrialize because they require long processes and high yields.

While direct magnesium powder-nitrogen reaction has industrial value, it is more difficult and requires longer reaction times and higher temperatures. The shape of magnesium nitride particles is also less precise and easier to agglomerate. This makes it not suitable for industrial quality. N2 and N3 can be broken down into N- more quickly than N2, while H2 can inhibit the formation MgO. Ammonia gas can also be used to provide nitrogen. Chen Faqin et al. Liquid ammonia was used as a nitrogen source to prepare magnesium Nitride Powder by direct nitriding magnesium powder. We can draw the following conclusions: Thermodynamic analysis shows that liquid ammonia reacts more with magnesium powder than nitrogen to produce magnesium nitride. Magnesium nitride powder of high quality and uniform particles can be prepared at 600°C in ammonia atmospheric for 1h. Next, heat to 800°C with an ammonia flow rate equal to 500ml/min. Finally, nitriding time is 1h.

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What is Magnesium Nitrode? Magnesium nutride, an inorganic compound with a chemical formula of Mg3N2. It belongs to the cubic crystalline system. Pure magnesium Nitride […]

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.
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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 […]

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