Titanium powder and its application

Posted on 2023-08-18 by adminLeave a comment

Titanium: Overview It is an element that has the chemical symbol Ti. The atomic number of titanium is 22. Its atomic number is 22. It is a lustrous, silver-colored transition metal, with low density and high strength. It resists corrosion in seawater and aqua regia.
The alloying of titanium with elements like iron, aluminum vanadium and molybdenum can create strong and lightweight alloys used for applications such as aerospace military, automotive, agricultural, medical prostheses and implants, dental and surgical instruments and files, dental implant, sporting goods, jewellery, mobile phone, and others.
Titanium and titanium alloy Powder
The metal powder titanium has many uses. Titanium is a silvery-gray powder with a high suction capacity. Titanium powder metallurgy offers the ability to produce clean, or near-clean, shaped parts. This is without the cost and material loss associated with machining parts from billets. Powders can undergo elemental blending, pre-alloying, and are then cured through metal injection moulding, hot isostatic press, direct powder forming, or laser engineering mesh form.
Titanium and titanium alloys have excellent performance in SLM and EBM. They can also be used for MIM and HIP. The best metals for 3D printing are titanium spherical particles. These powders are widely used to create high-strength materials.
Titanium powder It has been used for many years as an alloying material for many applications. With it, you can create net shape parts without any or minimal material losses that come with intricate parts created with wrought billet.

Titanium powder Preparation
The traditional method of extracting titanium powder This process is called the Kroll method. This technique is based on a temperature of up to 1040degC, and includes a number of sub-processes, such as hot isostatic press, alloying and other processes. To produce pre-alloyed Titanium powder, further methods must be used. To remove contaminants, the material is subjected the hydride/dihydride procedure, cold compaction and vacuum hot pressing. A number of metal consolidating strategies must be used to create the final product. Powder injection moulding or metal injection molding is a long-established and cost-effective method of fabricating small-sized metals to large quantities. There is also the direct powder-rolling process, which is used for the production and manufacture of sheets and plates. The laser-engineered network shaping technique can be used to quickly fabricate, enhance, and repair metal components. The components are subjected to hot isostatic presses, which are performed at high temperatures and pressure, in order to consolidate the titanium powders. To achieve the final product spark plasma sintering (also known as electric current assisted sintering) is used. This produces titanium powder with good mechanical characteristics and good grain sizes, without unwanted grain growth.
Titanium powder Application
The use of titanium powder Printing 3-dimensional auto parts is the latest breakthrough in metal manufacturing. Through 3D-printing, it is possible to produce different components and parts for automobiles, aerospace frames and engines. Titanium is still used for metal injection molding as well as powder metallurgy.

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Titanium Carbonitride TiCN Powder CAS 12654-86-3

Posted on 2023-06-122023-06-12 by adminLeave a comment

About Titanium Carbonitride TiCN Powder:
Titanium Carbonitride has many other uses besides being used as abrasive due to its stable chemical properties, high thermal conductivity, low thermal expansion coefficient and good wear resistance. Titanium Carbonitride has a very high hardness, with a Mohs hardness of 9.5, second only to the world’s harder diamond (grade 10). It has excellent thermal conductivity and is a semiconductor that can resist oxidation at high temperatures.

Titanium Carbonitride (TiCN) is a thin film coating developed from titanium nitride. TiCN has a slightly higher hardness than TiN and has a slightly lower coefficient of friction in many applications. It is mainly used to improve abrasive wear resistance. The use temperature limit of TiCN is relatively low.

TiCN has a lower coefficient of friction and higher hardness than TiN. Tools plated with Titanium Carbonitride are more suitable for cutting hard materials such as stainless steel, titanium alloys and nickel alloys, and have more wear resistance and high-temperature stability, which can be significantly improved Tool life. TiCN is a dark gray powder. It has low internal stress, high toughness, good lubricity, high hardness, wear-resistance and other characteristics, suitable for occasions requiring low friction coefficient and high hardness.

Titanium Carbonitride has at least 70 crystalline forms. α-Titanium Carbonitride is a more common isomorphous crystal that is formed at a high temperature higher than 2000 degrees Celsius and has a hexagonal crystal structure (like wurtzite). β-Titanium Carbonitride, a cubic crystal structure, similar to diamond, is formed below 2000 degrees Celsius. Although in the application of heterogeneous catalyst support, it is eye-catching because of its higher unit surface area than the α type. Another type of Titanium Carbonitride, μ-Titanium Carbonitride is very stable and has a more pleasant sound when colliding. Feel free to send an inquiry to get the latest price if you would like to buy Titanium Carbonitride TiCN Powder in bulk.

Product Performance of Titanium Carbonitride TiCN Powder :

Titanium carbonitride is a non-oxide ceramic material with excellent performance and wide application. It has the advantages of TiC and TiN. It has high melting point, high hardness, good corrosion resistance and oxidation resistance, and good thermal conductivity. Sex, conductivity and chemical stability for many fields such as machinery, chemicals, automotive and aerospace.

Technical Parameter of Titanium Carbonitride TiCN Powder :

Ti+C+N	C	N	Si	P	Cl
99.2	5.6	6	0.01	0.04	0.03

How is Titanium Carbonitride TiCN Powder produced?
In the physical vapor deposition (PVD) process, TiCN applies the transverse rotating cathode technology. The substance evaporates from the solid source in the form of atoms/molecules and then is transported in the form of vapor through a vacuum, low-pressure gas/plasma to the substrate, where it condenses. The application temperature of TiCN is 450°C.

Application of Titanium Carbonitride TiCN Powder:
Titanium Carbonitride can be divided into αTitanium Carbonitride and βTitanium Carbonitride. The αTitanium Carbonitride abrasive has two color varieties, green Titanium Carbonitride, black and green varieties. β-Titanium Carbonitride is the preparation of the main category of Titanium Carbonitride ceramic materials. The toughness of black Titanium Carbonitride is higher than that of green Titanium Carbonitride. It is mainly used to process materials with low tensile strength, such as glass, ceramics, stone, refractory materials, cast iron, and non-ferrous metals. Green Titanium Carbonitride has good self-sharpening and is mainly used for processing cemented carbide, titanium alloy and optical glass.

In addition to being used as an abrasive, Titanium Carbonitride has many other uses. A special process is used to coat Titanium Carbonitride powder on the inner wall of the turbine impeller or cylinder block, which can improve its wear resistance and prolong its service life by 1 to 2 times; The finished refractory materials, black Titanium Carbonitride and green are heat-resistant, light in weight and high in strength, and have good energy-saving effects.

Titanium Carbonitride (TiCN) has the highest lubricity in all tin coatings, which makes it an excellent dry film lubricant, which is better than standard calico tin when it needs to improve the hardness and wear resistance. Great. TiCN is commonly used for steel, hardened steel and stainless steel materials. TiCN is an excellent coating suitable for bronze, brass and plastics, so it is a good choice for stamping, punching and forming. Can be stripped and recoated.

Storage Condition of Titanium Carbonitride TiCN Powder:
Titanium Carbonitride TiCN Powder dispersion performance and using effects, therefore, titanium tin carbide Ti2SnC powder should be sealed in vacuum packing and stored in cool and dry room, the titanium tin carbide can not be exposure to air. In addition, the Ti2SnC powder should be avoided under stress.

Packing & Shipping of Titanium Carbonitride TiCN Powder:
We have many different kinds of packing which depend on the titanium tin carbide Ti2SnC powder quantity.
Titanium Carbonitride TiCN Powder powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Titanium Carbonitride TiCN Powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

Titanium Carbonitride TiCN Powder Properties
Other Names	TiCN, Titanium carbide-nitride, titanium carbo-nitride, titanium carbo nitride, TiC-TiN, TiCN, Ti(C,N) 70/30, 50/50, Grade A B C D, TiC1-xNx, CAS 12627-33-7 (Titanium cyanonitride, TiCN2)
CAS No.	12654-86-3
Compound Formula	TiCN
Molecular Weight	121.75
Appearance	Dark gray powder
Melting Point	>350°C
Solubility in water	N/A
Density	5.08 g/cm3
Purity	99.00%
Particle Size	-325mesh
Boling point	N/A
Specific Heat	N/A
Thermal Conductivity	N/A
Thermal Expansion	N/A
Young’s Modulus	N/A
Exact Mass	121.898967
Monoisotopic Mass	121.898967


Titanium Carbonitride TiCN Powder Health & Safety Information
Safety Warning	Warning
Hazard Statements	H228
Flashing point	N/A
Hazard Codes	F
Risk Codes	N/A
Safety Statements	N/A
RTECS Number	N/A
Transport Information	UN3178 4.1/PG III
WGK Germany	3

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Coating process of the new ceramic material Titanium Nitride

Posted on 2023-04-26 by adminLeave a comment

What’s the purpose of Titanium Nitride Titanium nitride Stable compound which does not react with iron, chromium and calcium at high temperatures. TiN does not react to acidic or alkaline sulfur under both CO and N2 atmospherics. TiN crucible provides a great container to investigate the interplay between certain elements and liquid steel. TiN is a titanium nitride made by heating and losing nitrogen in a vacuum. TiN has a bright golden color, high melting points, hardness and excellent chemical stability. This material has high electrical conductivity, superconductivity, and is suitable for use as an electric contact, molten sodium electrolytic electrode and other conductive materials. This material is widely used for high-temperature resistance and wear resistance as well as in decorative and aerospace fields.

Which properties are there for the titanium nitride coated?

Many roles can be played by titanium nitride coateds. The surface can be improved in its finish and corrosion resistance. It also has wear resistance. A vacuum ion coating on the surface will greatly increase its wear resistance, durability, and impact resistance.

The chemical heat process of nitriding is where the nitrogen atoms are penetrated into the outer layer of the workpiece using a given medium and temperature. Products nitride treated have exceptional wear resistance, fatigue resistance and corrosion resistance. They also exhibit high resistance to heat. This coating uses aluminum titanium nitride to create a metallic coating with an elegant and beautiful metallic luster. It is highly resistant to corrosion, oxidation, and scratching. The technology can be used in many areas. This technology can be found all around the house, being used for outdoor and indoor main surfaces decoration. Surface damage and breaking can occur when the bend is greater than 90 degrees. It can keep surface polishing in place for up to 20 years. It is possible to save both time and costs on cleaning and polishing available copper plating and gold plating. You can clean the area with a soft cloth or glass cleaner. This is a strong anti-destructive method of sex. You can wipe the handwriting and figure with a soft cloth to get rid of it. You can even prevent radiation from harmful substances.

Price of Titanium Nitride

Titanium Nitride purity can be priced differently. There is dynamic movement in the market for Titanium Nitride. We are available to assist you at all times.

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The Applications of Titanium Boride

Posted on 2023-04-20 by adminLeave a comment

What is it? Titanium Boride ? Titanium boride powder, gray or gray-black in color, has a hexagonal crystal structure. It has a high hardness and a melting point of 2980degC. Titanium diboride can withstand 1000°C of oxygen and is stable in HCl or HF acids. Titanium diboride can be used to prepare ceramic composite products. Its resistance to corrosion of molten steel makes it ideal for the production of electrolytic cell electrodes as well as molten crucibles.
These are the main features of Titanium Boride
Titanium boride, TiB ₂ It is the most stable of all boron compounds and titanium. It has a C32 structure and is bound using valence bond. It is a metallicloid compound in the hexagonal system. It has two structural parameters. C is 0.3228nm, a 0.3028nm. The crystal structure is made up of the titanium and boron atomic plans. This creates a two-dimensional network structure in which B and three other Bs are combined by covalent bonds. An extra electron forms an enormous p bond. This graphite-like Ti boron atomic layer structure and the Ti outer electrons are responsible for TiB’s good electrical conductivity, and metallic luster. ₂ This material has high hardness and brilliance because of the Ti-B bonds between the titanium atomic plan and the boron plane.

Titanium Boride Properties
Other Titles	TiB2, TiB2 powder, titanium boride powder
No.	12045-63-5
Combination Formula	TiB2
Molecular Weight	69.489
Appearance	Gray Powder
Melting Point	2980 degC
Boiling Point	N/A
Density	4.52 g/cm3
Solubility of H2O	N/A
Thermal Expansion Code	8.1×10-6m/m.k
Thermal Conductivity	25J/m.s.k
Electrical Resistivity	14.4mO.cm
Exact	69.96656 D

Titanium Diboride TTB2 Powder CAS 12456-43-5

Titanium Boride’s applications
1. Conductive ceramic material. It is one of the most important raw materials for vacuum coating conductive boat.
2. Use ceramic cutting tools and molds. It can make finishing tools, extrusion and wire drawing dies, sealing elements, and sandblastingnozzles.
3. Composite ceramic materials. It can be used in multi-component materials to form composite materials. It is also an excellent material to make armor protection materials.
4. Aluminum electrolytic cells cathode coating material. The good wettability of TiB2 and molten steel makes it possible to use TiB2 as the aluminum electrolytic’s cathode material. This will reduce power consumption and increase the battery life.
5. It is used to make PTC heating ceramic material as well as flexible PTC materials. These materials have the advantages of being safe, reliable, efficient, and simple to process and mold. It is a modern high-tech product made from various electric heating material.
6. Good strengthening agent for metals like Al, Fe, Cu.
High-quality Titanium Boride Supplier
Luoyang Tech Co., Ltd. is a professional Boride powder Over 12 years experience in the development and research of chemical products. 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.
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What is Titanium Boride?

Posted on 2023-04-17 by adminLeave a comment

What is it? Titanium Boride ? Titanium boride powder, gray or gray-black in color, has a hexagonal crystal structure. It has a high hardness and a melting point of 2980degC. Titanium diboride can withstand 1000°C of oxygen and is stable in HCl or HF acids. Titanium diboride can be used to prepare ceramic composite products. Its resistance to corrosion of molten steel makes it ideal for the production of electrolytic cell electrodes as well as molten crucibles.
The main features and benefits of Titanium Boride
Titanium boride, TiB ₂ It is the most stable of all boron compounds and titanium. It is of the C32 type and is bound using valence bond. It is a metallicloid compound in the hexagonal system. The complete crystal’s structural parameters are: a = 0.3028 nm, and C = 0.3228 nm. The crystal structure is made up of the titanium and boron atomic plans. This creates a two-dimensional network structure in which B and three other Bs are combined by covalent bonds. An extra electron forms an enormous p bond. This graphite-like Ti boron atomic layer structure and Ti outer electrons are responsible for the high electrical conductivity and metallic shine of TiB. ₂ This material has high hardness and brilliance because of the Ti-B bonds between the titanium atomic plan and the boron plane.

Titanium Boride Properties
Other Titles	TiB2, TiB2 powder, titanium boride powder
No.	12045-63-5
Combination Formula	TiB2
Molecular Weight	69.489
Appearance	Gray Powder
Melting Point	2980 degC
Boiling Point	N/A
Density	4.52 g/cm3
Solubility of H2O	N/A
Thermal Expansion Code	8.1×10-6m/m.k
Thermal Conductivity	25J/m.s.k
Electrical Resistivity	14.4mO.cm
Exact	69.96656 D

Titanium Diboride Powder CAS 12045-63-5

Titanium Boride’s applications
1. Conductive ceramic material. It is one of the most important raw materials for vacuum coating conductive boat.
2. Use ceramic cutting tools and molds. It can make finishing tools, extrusion and wire drawing dies, sealing elements, and sandblastingnozzles.
3. Composite ceramic materials. It can be used in multi-component materials to make composite materials with TiC. TiN. SiC. To make high-temperature-resistant parts and functional pieces such as engine parts and high-temperatures crucibles. It is also an excellent material to make armor protection materials.
4. Aluminum electrolytic cells cathode coating material. The good wettability of TiB2 and molten steel makes it possible to use TiB2 as the cathode material for aluminum electrolytic cells. This will reduce power consumption and increase the battery life.
5. It is used to make PTC heating ceramic material as well as flexible PTC materials. These materials have the advantages of being safe, reliable, efficient, and simple to process and mold. It is a modern high-tech product made from various electric heating material.
6. Good strengthening agent for metals like Al, Fe, Cu.
High-quality Titanium Boride Supplier
Tech Co., Ltd. () is a professional Boride powder Over 12 years experience in the development and research of chemical products. 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.
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Organic Modification of Titanium Dioxide and Its Influence on the Properties of Engineering Plastics

Posted on 2023-04-16 by adminLeave a comment

What is Titanium Dioxide exactly?

Titanium dioxide is an important organic chemical pigment. Its main component is titanium dioxide. Two process methods are used to make titanium dioxide. One is the sulfuric acid process and one is the chlorination process. It’s used extensively in coatings.

The performance of engineering plastics depends on many factors.

The defects in titanium dioxide, as well as the strong polarity of the surface, make titanium dioxide easy to absorb water. It is also easy to agglomerate and absorb water during production, storage, transportation and storage. This limits its use in organic polymers. The key to wide-spread titanium dioxide use is effective surface modification to increase its dispersibility and compatibility in organic polymers. It is necessary to perform organic modification in order to improve the dispersion, wetting, and rheological properties for titanium dioxide in different dispersion media.

1. The Lab value of titanium dioxide powder is not affected by the use of polysiloxane, polysiloxane, or polyol organic modifier to treat it. However, oil absorption indexes of the product are reduced.

2. The hydrophobic property of titanium dioxide that has been treated with polysiloxane increases its compatibility with plastics resins.

3. Polyols modified titanium dioxide are hydrophilic. They absorb moisture easily, which can affect the plastics’ application performance.

4. In ABS resin systems, titanium dioxide is treated with polysiloxane. This has the most impact on the mechanical characteristics of plastic products. The material’s tensile strength and impact resistance are also the best.

5. It is recommended that titanium dioxide used in engineering plastics be modified with polysiloxane modifyrs. Additionally, organic modifiers containing different group should be chosen according to the application system to enhance the material’s overall performance.

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What is Titanium Nitride TiN Powder?

Posted on 2023-04-14 by adminLeave a comment

Introduction to Titanium Nitride Powder TiN Titanium Nitride A golden cubic crystal is TiN. Its chemical formula is TiN. It has a molecular mass of 61.89. The melting point is 2950. The density of the material is 5.43g/cm3.

Titanium Nitride TiN Pulver’s Physicochemical Characteristics
Titanium Nitride is a synthetic ceramic material that is extremely hard. It is very similar to diamond. Titanium Nitride is chemically stable at ambient temperature, but can be oxidized at 800 degrees at atmospheric pressure by hot concentrated acid. It has the infrared reflection characteristics of an IR (infrared ray), and its reflection spectrum is comparable to that of gold (Au), making it pale yellow.
The relative friction coefficient of titanium Nitride is 0.4 to 0.9 depending on the substrate material. Its most common crystal structure is the sodium chloride type. The relative Stoichiometry between elements is around 1:1. The thermodynamic stability factor X of TiNx complex (0.6-1.2) is also a characteristic. This thin film of titanium dioxide cooled to near absolute zero is the world’s first superinsulating material. It adds 100,000 units insulation.

Titanium Nitride TiN Pulp Properties
Other Names	Tinite, TiNite, TiN powder, nitridotitanium
CAS No.	25583-20-4
Formula compound	TiN
Molecular Weight	61.87
Appearance	Powder in golden brown
Melting Point	2950
Boiling Point	N/A
Density	5.43g/cm3
Solubility of H2O	Insoluble
Exact Mass	61.951

Titanium Nitride TIN Powder CAS 25583-20-4

Is titanium nitride more powerful than steel?
It is stronger than many steels when titanium is mixed with other metals such as vanadium or aluminum. The best titanium alloys have a higher strength than lower and mid-grade stainless steels. But, stainless steel of the highest grade is stronger than titanium-alloy.
Titanium has the highest strength-toweight ratio of all known metals. While titanium has the same strength and weight as steel, it is 45% lighter.

Titanium Nitride TiN Pulver Applications
Powder metallurgy, fine ceramic raw material powder, conductive materials, and decorative materials can all be used. This material is used extensively in high-temperature resistance as well wear resistance and aerospace. This material is highly electrically conductive and can be used for electrodes and contact in molten salt electrolysis. It can also serve as an additive to hard-cutting instruments. Specifically,
1. Coatings of titanium nitride These are often used on metal edges to protect the corrosion resistance and life expectancy of drills or milling cutters.
2. Its metallic luster makes it a popular choice for many purposes. Car and clothing decoration . The outer coating is usually nickel (Ni), chromium(Cr), packaging pipes, and window and door hardware.
3. This coating can also be used for Applications for military and aerospace Protection of the suspension sliding surfaces of motorcycles and bicycles as well the damping shafts remote-controlled cars.
4. This material is safe and compliant with FDA regulations, so it can be used frequently in. medical devices Sharpening scalpel blades, orthopedic bone saws, and directly as implants (especially hip replacement implant) and other medical implants.
5. Titanium nitride films are available for use in microelectronics As a conductive barrier between active contacts and metal devices. Conductivity of the film can be formed when it is diffused in silicon metal.
6. This special blocking material also has the mechanical and chemical properties of a ceramic. This process is heavily used in current 45nm chips designs to improve transistor performance. This is the Batteries field by combining titanium oxide with a gate layer of dielectric material (eg. HfSiO can improve the dielectric constant, increase the gate length, drive current, and threshold voltage.
7. High biostability allows for extended use of the alloy. Bioelectronic Electrodes , such as the prosthesis project under the retina and the micro-electro-mechanical system (bio-mems) in biomedicine, which enables intelligent implants or in vivo biosensors to withstand severe humoral corrosion.

Titanium Nitride TiN Pulver is Main Supplier
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What is Titanium Carbide?

Posted on 2023-04-05 by adminLeave a comment

What is it? Titanium Carbide ? The chemical formula of TiC is 59.89. Gray metallic cubic lattice with a centered face. The melting point is 3140+90 and the boiling point is 4820. The relative density of 4.93 is also available. Hardness is higher than 9. It is insoluble when dissolved in water. However, it can be dissolved in nitric and aqua regia. It is stable to air below 800degC. It can also be corroded if exposed to air above 2000degC. Production method: This mixture of titanium and carbon is made by reacting TiO2 by hydrogen at high temperatures. TiO2 and carbon are then pressed into blocks and heated to 2300-2700 C in an electric furnace. Finally, the block is carbonized with H2 or CO atmosphere. It is also used to make electrodes and abrasives for arc lamps.
Titanium Carbide: The Characteristics
It is stable to the air at temperatures below 800degC. At 800degC it is slowly oxidized. Powdered TiC is able to be burned in O2 at 600degC for TiO2 and carbon dioxide. It is easily eroded if the temperature is greater than 2000°C. When heated it can interact easily with oxygen, nitrogen and halogen. It reacts with the molten alkali, and slowly de-C occurs when heated to more than 1500 in H2Chemicalbook gases. Mixes with N2 at above 1200degC to produce mixed titanium carbonitride Ti(C),N) with variable composition. Although it does not interact well with water, it can react with water to create TiO2, CO and hydrogen at temperatures over 700°C. It is not able to interact with CO but reacts with CO2 at 1200 degrees C to create TiO2 (and CO)

Titanium Carbide Properties
Other Titles	titanium(IV) carbide, TiC powder
No.	12070-08-5
Combination Formula	TiC
Molecular Weight	40.1
Appearance	Black Powder
Melting Point	3160 degC
Boiling Point	4820 degC
Density	4.93 g/cm3
Solubility of H2O	N/A
Exact	59.947946

Titanium Carbide TIC Powder CAS 12070 – 08-5

Titanium Carbide: What are its uses?
1. This is used for cutting tools, wear resistant coatings, mold making, and making metal crucibles to smelt metal.
2. Raw materials to produce ceramics and hard metal parts in powder metallurgy, such as wire drawing film, cemented carbide molds, or other forms of metallurgy. Multiphase ceramics can be used for hard knives, military armor materials and aerospace Chemicalbook components. These include engines, nozzle lines, turbine rotors. blades, as well as structural components in nuclear reactors.
3. It is a good coating material. It can be used for anti-tritium in fusion reactor coating, diamond coating, electrical contact coating and excavator pick coat. Also, foam ceramics and infrared radiation materials can all be made from it.
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Tech Co., Ltd. () is a professional Carbid Powder supplier Over 12 years of experience in the field of chemical product development and research. We accept payments via Credit Card and Paypal. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
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The Applications of Ti3AlC2 Powder

Posted on 2023-03-30 by adminLeave a comment

Overview Ti3AlC2 powder
It not only has the same electrical and thermal conductivity as metal, but also has high elastic modulus and excellent high temperature mechanical properties similar to ceramics.It also has good thermal vibration resistance,anti-destructive ability and excellent chemical corrosion resistance.

Titanium aluminum carbide Ti3AlC2 Max

What are the potential uses of Ti3AlC2 Pulver?
The Al can diffuse rapidly in the TiAl-C MAX phase and undergo selective oxidation. This results in a dense Al2O3 coating that protects the matrix material from further oxidation. The high temperature self-healing capability of the system material is due to the microstructure of the interface between titanium aluminiu carbide (Ti3AlC2and Ti2AlC2)and the formed Al2O3. High temperature environments can cause cracks or nicks to form on the surface of the material. The oxide fills these cracks so that the material can regain its original properties, particularly its mechanical properties. This property is important for maintaining the material’s mechanical properties and increasing its reliability and stability, making it more suitable to be used in high temperature environments.
Titanium aluminum carbide(Ti3AlC2 and Ti2AlC)has the characteristics of rapid Al diffusion and selective oxidation at high temperature,respectively,to realize the butt welding of the material itself and the welding between layers.The fracture toughness of self-welded layered materials of titanium aluminum carbide(Ti3AlC2 and Ti2AlC)has been greatly improved compared with single-phase materials.
MAX phase products,especially titanium silicon carbide(Ti3SiC2),have a series of characteristics such as high damage tolerance,good mechanical and thermal properties,making it possible to be used in fourth-generation nuclear reactors as nuclear fuel in gas-cooled fast reactors The cladding material.In recent years, the ability of titanium silicon carbide(Ti3SiC2)to resist radiation damage has attracted more and more attention.
Titanium aluminum carbide powder is widely used in the largest special ceramic materials,electronic materials,high-temperature structural materials,electrode brush materials, chemical anti-corrosion materials and high-temperature heating materials.
The electrical and thermal conductivity of titanium aluminum carbide, Ti3AlC2, is the same as that of other metals. However, it also has excellent mechanical properties and high-temperature elastic modulus. It has excellent heat resistance, vibration resistance and destruction resistance.
Due to the unique nano-layer crystal structure, this type of titanium aluminum carbide ceramic material (Ti3AlC2)has the characteristics of oxidation resistance, self-lubrication,high fracture toughness and conductivity at room temperature.
Titanium aluminum carbonide (Ti3AlC2) is widely used in high-temperature structures, electrode brush materials and chemical anti-corrosion material.
You can also use titanium aluminum carbide (Ti3AlC2) in high temperature coatings.
Aluminum titanium carbide, a multifunctional ceramic material, can be used as a precursor for nanomaterials and MXenes.
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Tech Co., Ltd. () is a professional MAX 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.
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Why is the nitriding melting point so high?

Posted on 2023-03-19 by adminLeave a comment

What does titanium nitride mean? Titanium nitride The powder is yellowish brown. Superfine TiN is black. TiN crystals are golden yellow. TiN has good thermal shock resistance, a Mohs toughness of 8-9, and a melting temperature of 2950. TiN has a melting point that is more than many transition metals nitrides. But, it is much denser than other metal nitrides. This material can be used to conduct electricity, such as as electrical contacts and electrodes for molten-salt electrolysis. Ti2N2 can be made into two types; Ti3N4 is a yellow-colored solid. It is dissolved in boiling water. Ammonia is released when the solution contains hot sodium hydroxide. It has similar properties to titanium dinitrogen.

Making titanium nitride
This can be done by directly reacting nitrogen and titanium at 1200. Vapor deposition can create the coating by using titanium tetrachloride (nitrogen) and hydrogen combination. Titanium dinitrogen, which is produced by heating titanium metal with nitrogen or ammonia at 9000 to 1000 degrees Celsius. Titanium Tetranitride, which is produced by heating titanium tetrachloride with ammonia at 1000°C, can be obtained.

Primary applications of titanium Nitride
The relatively stable titanium nitride, (TiN), is an alloy. It doesn’t react at high temperatures with iron, manganese, chromium and calcium. TiN does not react in an atmosphere of CO or N with alkaline and acid slag. TiN is an ideal container to investigate the interplay between molten and other elements. To make titanium nitride, TiN must be heated in a vacuum. TiN, a cashy structural material, has high melting points, hardness and chemical stability.

What role does titanium nitride coating play?
The universal PVD coating Titanium Nitride is made with 2300HV thickness. The coating is hard and durable with mature technology. You can use it on most of the cutting and forming tools.

Prices for titanium nitride
Particle size and purity in titanium nitride can affect its price. The purchase volume also has an effect on the cost of titanium. Large quantities of smaller amounts will result in a lower price. Our company website has the titanium nitride price.

Provider of Titanium Nitride
The Advanc3dmaterials Advanced Material Nano Technology Co. Ltd. Luoyang City (Henan Province), China. This is an established and reliable global supplier of chemical materials. This company is a trusted supplier and manufacturer of high quality chemical materials and nanotechnology products. It boasts more than 12 year’s experience, such as graphite powder or titanium nitride. We are happy to provide high-quality titanium nitride at a reasonable price. Get in touch Ask any question.