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What is Spherical Al2O3 Powder?

What is it? Spherical HTMLO3 powder ? Aluminium oxide can be described as an inorganic compound with the chemical formula Al2O3. It is a high-hardness compound that has a melting temperature of 2054degC, and a boiling temperature of 2980degC. It is an ionized crystalline that can be easily ionized at high temperatures. This crystal is commonly used in the production of refractory materials.
Industrial alumina is made from bauxite, Al2O3*3H2O and diaspore. Chemical methods are used to prepare Al2O3 with high purity requirements. There are many Al2O3 isomorphs. More than 10 types are known. There are generally three crystal forms of Al2O3, which are a-Al2O3,-b-Al2O3, or g-Al2O3. They all have different structures and different properties. At temperatures over 1300degC, it can be almost entirely converted into a Al2O3.
The high-temperature melt spraying process produces spherical Alumina with high sphericity. This alumina has excellent performance as a filler for rubber, plastics, ceramic raw materials.
The key features of Powder Spherical al2O3
1. High filling density. This product is capable of filling rubber and plastics with high density.
2. High thermal conductivity. High filling density permits the production of compounds that have a higher thermal conductivity and a higher heat dissipation than crystalline silicona.
3. Low abrasivity:
Its Spherical shape makes it less likely to wear kneading, forming, and dies.

Aluminum Oxide Properties
Other Titles	Alumina, aluminum (III), oxide, aluminum trioxide, and Al2O3 powder
No.	1344-28-1
Combination Formula	Al2O3
Molecular Weight	101.96
Appearance	Powder White
Melting Point	2072 degC
Boiling Point	2977 degC
Density	3.95 g/cm3
Solubility of H2O	N/A
Exact	101.948 g/mol

Spherical Al2O3 Powder CAS 344-28-1

Spherical Al2O3 Pulver is used in a variety of applications
1. Spherical Micropowder can be used as a ceramic materials. It has excellent pressing and sintering characteristics, which is very beneficial in the production of high quality ceramic products.
2. It can be used as a grinding or polishing material.
3. This is used in the petrochemical and petroleum industries. There are increasing requirements for the pore size distributions and the pore structure of the carrier alumina. You can adjust the particle size configuration to control formed catalyst carrier particles. Distribution and pore size.
4. The thermally-conductive composite spherical aluminum powder has a limited thickening range and good filling performance. It can be used to make new composite materials with high thermal conductivity, such as thermally-conductive gaskets and thermally-conductive silicone grease, thermally-conductive potting (Glue), and thermallyconductive plastics. You can also use it to create artificial teeth or bones.
The main supplier of Powdered Spherical al2O3
Tech Co., Ltd. () is a professional oxide powder Over 12 years’ experience in chemical products development and research. We accept credit cards, T/T and West Union payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
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What is it? Spherical HTMLO3 powder ? Aluminium oxide can be described as an inorganic compound with the chemical formula Al2O3. It is a high-hardness […]

Is titanium carbide hard?

What is titanium carbonide?

Titanium carbonide is a iron-gray, cubic-shaped crystal that has metallic luster. The lattice constant for this simple cubic structure of NaCl type is 0.4329 nm with an Fm3m space group. The carbon atoms have the same properties as titanium atoms, while solid covalent bonds link TiC atoms. Tic is similar to metals in that it exhibits high melting point and boiling point as well as hardness. The hardness of Tic surpasses diamond’s.

Uses of titanium carbide

In aerospace, nano-titanium caride is utilized. The melting point is above 3000. This makes it compatible with tungsten and has similar thermal expansion coefficients.

In many industries, titanium carbide is used to make wear-resistant materials and cutting tools. It can also be used for making molds, crucibles for melting metals, and other applications. Optical materials such as transparent titanium carbide ceramics, are also available. Abrasive titanium carbide ceramics are ideal to replace traditional materials like chromium dioxide, silicon carbide or boron carbonide. Its grinding performance is similar to that of synthetic diamonds. It is widely used across the globe, including in Japan, Russia, America and elsewhere. Abrasives and other products made from nano titanium carbide, such as grinding wheels or paste, can greatly improve the efficiency and precision of grinding and smoothen out surfaces.

The nano-titanium carbonide foam ceramic is used as a filter. This ceramic works by agitation or adsorption to remove any inclusions. It is essential that filter materials have a chemical stability. The filters in the metallurgical industries require high melting points. Therefore, most oxides are required to filter the molten metal. Thermal shock resistance has been primarily studied. A nano-titanium carbide ceramic has a higher strength, hardness and electrical conductivity than other oxide foam ceramics.

Prope chemical Titanium carbide

TiC has high chemical stability and is cubic in shape, light gray in color, insoluble when water is added. However, it is not able to react with either sulfuric or hydrochloric, although it can be dispersed in aqua regia as well as hydrofluoric, nitric, and alkaline solutions.

How does titanium carbide get made?

High-purity carbon dioxide and high-purity carbon black can be used as raw materials. After the mixture has been thoroughly mixed, it is then ground in a carbon tube furnace, or in a vertical tube furnace, at 1900-2300 in hydrogen, to obtain huge TiC. Next, titanium carbide powders are pulverized. Mixing sponge titanium with carbon black is another option. This involves combining sponge titanium, or titanium scrap, in a proportion that produces titanium carbide.

Titanium carbide prices

There are many variables that influence the market price of Titanium Carbide. The market price of Titanium carbide is changing rapidly at the moment. You can contact us anytime if you require it.

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What is titanium carbonide? Titanium carbonide is a iron-gray, cubic-shaped crystal that has metallic luster. The lattice constant for this simple cubic structure of NaCl […]

Aluminum Nitride – One of The Most Promising Ceramic Materials

Aluminum nitride It’s a covalent bonds compound. The chemical formula for the substance is AlN. Aluminum nitride has a diamond-like structure. It’s hexagonal crystal systems, with wurtzite crystal structures. It’s non-toxic and can be white or offwhite. Aluminum nitride, a ceramic material, has exceptional comprehensive properties.
Aluminum nitride or AlN has the properties of high strength and volume resistance. Also, it is highly thermally expandable and can be matched with silicon. It’s used not only as a sintering agent or reinforcing layer in structural ceramics but also for other purposes, particularly in recent years. Its performance in ceramic electronic substrates and packaging materials far surpasses that of aluminum.

The Use of Aluminum Nitride

Used to enhance luminescent materials
Aluminum nitride, also known as AlN, has a maximum band gap of 6.2eV. This gives it a higher photoelectric efficiency than indirect band gap semiconductors. AlN, a vital blue and ultraviolet light emitting material, is used in UV/deep ultraviolet light-emitting devices, ultraviolet laser diodes, as well as ultraviolet detectors.

It is used in ceramics, refractory and other materials.
Aluminum nitride can also be used to sinter structural ceramics. You can use the AlN ceramics’ heat resistance and corrosion resistance to make high temperature, corrosion resistant parts like crucibles and Al-evaporating dishes.

For composite materials
As packaging materials, epoxy/AlN materials must be able to dissipate heat and thermally. This requirement is increasing. Epoxy resin, a polymer material, is easy to cure and has good chemical properties. It also has low shrinkage. However, it has high thermal conductivity. You can increase the thermal conductivity of epoxy resin by adding AlN nanoparticles, which have high thermal conductivity.

Piezoelectric device application
Aluminum nitride exhibits high resistance, high thermal conductivity (8-10x that of Al2O3) and a similar expansion coefficient to silicon. It is a great material for high temperature and high power electronic devices.

Apply to substrate material
AlN crystal makes a great substrate for AlGaN, AlN and AlN epitaxial material. AlN and GaN substrates are better than SiC and sapphire. Also, the stress between the substrate & the epitaxial layers is lower than SiC.

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Aluminum nitride It’s a covalent bonds compound. The chemical formula for the substance is AlN. Aluminum nitride has a diamond-like structure. It’s hexagonal crystal systems, […]

Is alumina toxic to the human body?

Can alumina cause cancer in humans? Alumina is an aluminum-containing mineral that can be found throughout the world as bauxite or alumina. When aluminum is exposed in the air, it forms alumina and then a thin layer of aluminum on its surface. This makes aluminum resistant to corrosion.
Alumina Is an insoluble compound made of aluminum that doesn’t cause any acute toxic effects. While long-term exposure can cause serious health effects and health risks, short-term exposure is rare in this industry.
This compound is not only irritating to the skin, but also has a mild chronic toxic effect.

For what purpose is alumina being used?
One of the most widely used ceramic materials in technical manufacturing is aluminum oxide or Alumina. It can be used to produce many components across different industries. The manufacturing process of alumina injection molding allows for the creation of customized components that can be used in different industries. There are two main purposes for this process:
Medical industry. The chemical properties and hardness of alumina as well as their biological inertia make it an ideal material for many medical applications.
Protective equipment – The light weight and strength of alumina makes it an excellent material for strengthening vehicle armor or making bulletproof synthetic sapphire windows.
Electrical industry Alumina’s high boiling point, melting point, and high thermal conductivity make it an attractive choice when making high-temperature insulation for furnaces and electric insulators. The microchip industry is another major user of Alumina.
Gemstone Industry: The formation of rubies and sapphires is made from alumina. This is how these precious gems can be made.
Applications: Because alumina has chemical inertia, it makes a great filler to bricks, plastics, and heavy pottery. This is a great economic alternative to industrial diamond.

Aluminium oxide nanoparticles
Alumina can be found in various forms such as spherical or hexagonal flake and cubes, cylinders, fiber, flowers, curls, etc.
A nano-alumina consist of both fibers and rods. Nano alumina is distinguished from regular alumina by its higher elastic modulus, superior thermodynamic and chemical stability and unique optical characteristics.
Fibrous allumina is an important type of inorganic fiber that is high-performance and contains a lot of Al203. The benefits of this fiber include high strength, exceptional heat resistance and high temperature resistance to oxidation. It has a high tensile strength and can withstand higher temperatures. Long-term service temperature ranges between 1450 and 1600 degrees. Because of its excellent surface activity, you can easily compound it with metal, ceramic, or resin to create composites with outstanding properties that are widely applicable. It’s considered the highest-potential high temperature material.

High purity of alumina
High purity alumina, a white powder crystallized in white, is divided into the following types: 4N (99.999% purity), 3N (99.999% purity) and 5N (99.999% purity).
High purity Alumina is highly sinterable, dispersible, and porosity.
4N high purity aluminum is used most often in rare earth tricolors phosphors as well as energy-saving lanterns and lamps.
5N high-purity alumina used in the manufacture of ceramic separator, sapphire glass and a lithium battery. The excellent mechanical strength, stability and cleanability of sapphire crystal make it an ideal substrate to LED. High purity 5N Alumina has been in high demand due to the increased demand for energy-saving standards. Also, sapphire is used in the iPhone phone camera. This drives the demand for sapphire glasses in household electronics.
In ceramic separators of lithium batteries, 5N high purity aluminium is used. A nano-alumina coating on the lithium battery diaphragm surface can significantly improve its temperature resistance, and safety.
The high-purity alumina is well known for its excellent chemical, mechanical and thermal properties.

Aluminium oxide Price
Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity. Unexpected events.
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Aluminium oxide Supplier
Technology Co. Ltd. (), is a trustworthy Al2o3 manufacturer, and Al2o3 supplier. We have over 12 years experience. All of our products can be shipped worldwide.

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Can alumina cause cancer in humans? Alumina is an aluminum-containing mineral that can be found throughout the world as bauxite or alumina. When aluminum is […]

What is Colloidal Silicon Dioxide?

What exactly is colloidal silica dioxide? A gaseous silica obtained by hydrolysis. It’s a form of fine silicon, which is easily dispersed. It can be insoluble in water. It’s a common element on the periodic table. It’s non-toxic and often used by industry. It’s the second most abundant element in the crust of the Earth after oxygen.

For what purpose is colloidal silicone dioxide used?
Food usage.
Colloidal silica can be found in foods. Because it acts as a loose-flowing agent, It can be found in salt, seasoning and baking salts. It can be found in many foods, including spices and meat pickling paste.

For medical use.
Colloidal silica can be used in dietary supplement and pill coatings because it is inert. Aerosil is the tradename for medical grade colloidal silicon.

Uses Other Than
The thickening properties of colloidal silica in the industrial environment can be used to make paints, dyes and other cosmetics. The trade name for colloidal silica is “Cab-o-Sil”, which can be used to thicken industrial products.

Is colloidal silicon dioxide toxic?
FDA has confirmed that silica colloidal is generally safe. Many studies also show that silica ingested through food or supplements can be safely taken.
The body doesn’t accumulate it, according to research. According to the World Health Organization excess silicon dioxide is expelled through the kidneys. The researchers also discovered no link between excess silicon dioxide from food and increased organ damage, disease, or death.

Does silicon dioxide have any health benefits?
It naturally occurs in the earth, and also in human bodies. Silicon dioxide is safe to be used in foods as an additive. Inhaling silica may cause serious health problems.
Silica comes in many different forms. Different types of silicon dioxide are added to food, medicines and supplements. Silica dust inhaled is dangerous. Silica dust exposure can result in silicosis. In essence, silica has a crystal structure. You can inhale it to introduce the crystals into your lungs as nanoparticles. This creates tiny incisions within your lung tissue. It can cause scar tissue to form in your lungs over time. This makes it difficult for you to breathe.

Silicon Dioxide Price
Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity. Unexpected events.
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Silicon Dioxide Supplier
Technology Co. Ltd. (), is a respected SiO2 provider , and SiO2 manufacturer . It has over twelve years’ experience. All of our products are available for shipment worldwide.

Feel free to email us and submit an inquiry if you need high-quality SIO2. (brad@ihpa.net)

What exactly is colloidal silica dioxide? A gaseous silica obtained by hydrolysis. It’s a form of fine silicon, which is easily dispersed. It can be […]

What is Cuprous Oxide Cu2O Used For?

What is Cuprous Oxide Cu2O? Cuprous oxide is an univalent copper dioxide, bright red powder that is almost insoluble, and gradually oxidized in the air to black copper oxide.

Cuprous oxide is a common pigment, fungicide, or antifouling ingredient in Marine coatings. The first rectifier diodes made from this material were in use in industry back in 1924. This was long before silicon was the norm. Benedict’s test also has a positive pink color due to copper oxide (I).

What is Cuprous Oxide and Cupric Oxide?
Copper is a bright red-orange metal that has high conductivity to heat, electricity and other forms of energy. Copper shares this ability with gold and silver because each element has a “free agent” electron, which is capable of negotiating chemical bonds with all atoms around it. The other electrons are all tightly bound to their groups, but this one can be transferred.

Copper reacts with water molecules, which can contain two hydrogens and one oxygen. This free electron is transferred to an oxygen atom nearby, binding it to a single molecule. It is known as copper oxide if only one copper atom is attached to an oxygen molecule. It is cuprous oxide if two copper atoms bond to one oxygen. Copper oxide is “fully oxidized”, but cuprous oxide stays active.
Cuprous oxide’s active form is what makes it a very effective fungicide. It still produces reactive oxygen, highly reactive molecules. These are unstable molecules which can cause damage to cells.

What does Cuprous Oxide serve?
Antifouling paint is for ships and ship bottoms. It’s an effective way to control corrosion.
Paint for glass and porcelain
It is used as a p-type semiconductor material in the production of photocells light meters and rectifiers.
Useful as a fungicide or seed dressing agent.
Cuprous oxide is often used as a catalyst to produce other chemicals. This is used for the manufacture of zinc chloride, ferrous chlorineide, and other chemicals. It is also used to absorb UV light in surface treatment products.
Cuprous oxide accounts for 9 to 15% of all battery production. It’s also used in metal production and construction as well as in the manufacture of plastics and organic compounds. It’s an ingredient in several paints, and it is used as an oxygenant in many metal plating process.
Useful in industrial and construction as effective preservatives, catalysts, and reagents of ultra-high purity. It’s particularly useful in manufacturing and process control as well as construction. It is also used for water treatment, especially to purify water to remove dissolved parts and for the polymerization specific polymers.
This process is essential for steel production and serves as a catalyst for metallurgy. Catalysts reduce the iron’s oxide.
Useful as pigments and flame retardants as well as a flux in metal melting.

Price of Cuprous Oxide
Price is affected by many factors, including supply and demand in a market, industry trends and economic activity.
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Cuprous Oxide Supplier
Technology Co. Ltd. is a trusted global supplier of chemical materials and manufacturer. With over 12-years experience in producing super-high-quality chemicals & nanomaterials such as silicon powder.
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What is Cuprous Oxide Cu2O? Cuprous oxide is an univalent copper dioxide, bright red powder that is almost insoluble, and gradually oxidized in the air […]

What are Aluminum Nitride Characteristics?

History of Aluminum Nitride Aluminium nitride A type of ceramic material, has a very high comprehensive performance and can be traced back over 100 years. F. Birgeler discovered it in 1862. A. Gutter synthesized it by J.W. The first use of mallets was in 1877. However, it didn’t find any practical application over the next 100 years. It was used only as a fertilizer, but as a nitrogen fixing agent.

Aluminum nitride can be sintered because it is a covalent chemical with a low self–diffusion coefficient. Aluminum nitride ceramics first became commercially viable in the 1950s. They were used as refractory materials during the smelting process of aluminum, pure iron, and aluminum alloys. The technology used to prepare aluminum nitride is becoming more sophisticated and the application range has expanded. This has been evident since the 1970s. The 21st century has seen rapid developments in microelectronics technology. Electronic machine and electronic parts are moving towards miniaturization and light-duty integration. They also have a development direction such as high reliability, high power output, more complex heat dissipation devices to the substrate and packaging materials that are more requested, which will further encourage the growth of the aluminum industry.

Aluminum Nitride Characteristics
Structure
Aluminum nitride, also known as AlN, is a hexagonal wurtzite-covalent bond compound that has the following lattice parameters: A =3.114, and C =4.986. Pure aluminum Nitride is a blue-white semiconductor material with a wide bandgap of iii to vwide.

Performance
Aluminum nitride is far more efficient than alumina because it has superior performance in terms of strength, volume resistance, insulation and pressure resistance.

Aluminium Nitride Thermal Conductivity Method
One of the many important properties of aluminum Nitride is its high thermal conductivity. There has been a lot of research into the thermal conductivity mechanism in aluminum nitride. A theoretical system that is almost perfect has been developed. The principal mechanism of heat transfer through the lattice is heat vibration or lattice vibrating, which is, by thermal wave or lattice waves. Quantum mechanics shows that lattice wave can be considered the motion of a particle (the phonon), according to quantum mechanics. Wave-particle duality can also be found in thermal waves. Thermal phonons transmit heat through mutual restriction of and coordination among vibrations between structural elements (atoms or ions) If the crystal has a non-elastic structure, heat can flow freely from one end to the other without interference or scattering. The thermal conductivity can even reach very high levels. The main controls on thermal conductivity are crystal defects and the phonon scattering.

AlN has a theoretical thermal conductivity value of 320W*m-1*K-1. However, the thermal conductivity actually measured by AlN is 200W*m-1*k-1 because of impurities and defects. This is because the crystal has a variety of structural elements that cannot be distributed uniformly and the current-carrying, phonons are constantly scattered.

Aluminum Nitride Price
Price is affected by many factors, including supply and demand, market trends, economic activity and unexpected events.
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Aluminum Nitride Supplier
Technology Co. Ltd. is a trusted global supplier of chemical material and manufacturer. They have over 12 years experience in producing super-high-quality chemicals, Nanomaterials, such as silicon powder.
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History of Aluminum Nitride Aluminium nitride A type of ceramic material, has a very high comprehensive performance and can be traced back over 100 years. […]

What are the Characteristics of Nitinol?

Nickelol is an alloy of nickel and titanium that has about 50% nickel. It was discovered in 1960, but it would take years for Nitinol to make it to the market. This is due to the difficulty in processing and manufacturing. Many of Nitinol’s applications have been realized in the middle of the 1990s. This is due to its shape-memory properties and superelasticity. Nitinol has shape memory, which means it can be transformed into a new form at a temperature below the normal body temperature and then return back to its original form if heated above the transition temperature.

Characteristics & Properties of Nitinol
Nitinol has the unique ability to adapt to particular strains and is compatible to the human body. Therefore, it has many uses in the medical field. Nitinol displays a cubic crystal structure, known as austenite (also called the parent phase). It spontaneously becomes martensite at lower temperatures. The temperature at where austenite turns to martensite, also known as the transition temp, is commonly called the Ms temperature. The temperature that martensite fully forms is known as Mf temperature. These two features of Nitinol’s structural structure — shape-memory and superelasticity — allow it to show a reversible reaction to applied stress. This is directly caused by the phase change between the martensitic and austenitic phases.

These two aspects are critical to Nitinol’s properties. First, the transition can be reversed. This means that heating above transition temperature will return the crystal structure back to the simpler austenite. The second important point is that two-way conversion occurs instantly.

Martensite crystals have the unique ability to undergo finite atomic bond breaking without causing any damage. This type of deformation is called twins and involves the rearrangement atomic planes without causing any permanent deformation. This can withstand around 6-8% strain.

Martensite can be converted to austenite using heating. The original austenite structure will still be intact, regardless of the deformation of the martensite phases. This is why the term “shape memories” refers to how the high-temperature austenite phases are “remembered”, even though they deform severely at lower temperatures.

The Nitinol medical devices, such as a Stent, can be made at the body temperature, deformed at another temperature, folded smaller, and then inserted into an artery. Once it is at normal temperature, it will return to its original size. The device will also fully recover after being bent to extremely high strain rates (upto 7%).

Super-elastic effect of Nitinol Wire
This “hyperelasticity” allows you to use a Nitinol-wire device that has been bent, shaped or placed in your body. The tube can accommodate small grasping or biopsy tools that are smaller than those made from standard alloys. Nitinol is a lightweight alloy with unique properties that makes it ideal for biomedical applications. This includes heart valve tools, stents (stents), nails, bone anchors or complex diaphragm defects devices.

But heat-treating Nitinol to achieve the desired transition temperature is delicate. Temperature and age control the precipitation process of various Ni-rich phases. This is done to regulate the nickel content within the lattice. The nickel matrix is depleted, and aging increases the temperature transition. It is crucial to combine heat treatment with cold work in order to control the properties and alloy Nitinol.

NiTi Alloy powder price
Price is affected by many factors, including supply and demand, market trends, economic activity and unexpected events.
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Niti Alloy Powder Supplier
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Nickelol is an alloy of nickel and titanium that has about 50% nickel. It was discovered in 1960, but it would take years for Nitinol […]

What is Titanium carbide used for?

What is Titanium Carbide? The chemical formula for Titanium carbide is TIC. It has a molecular weight 59.89. Cubic lattice solid gray metallic with face center. Titanium carbide melting point at 3140 +-90 Titanium carbid boiling point Is 4820. The relative density of is 4.93. It is harder than 9 Mohs.
Titanium carbonide cannot be dissolved in water. However, it can dissolve in nitric and aqua regia. It can react with pure O2 at 1150 and is therefore stable to air below 800.

Where is titanium caride used?
It is also used in the manufacture of cemented carbide.
To prepare cermet, you can use titanium carbide. Due to its wear resistance and hardness, titanium carbide is used to cut steel at very high speeds. This surface treatment is wear-resistant and can be applied to metal parts such as tools drills or watch mechanism mechanisms. It is used to provide thermal insulation for spacecraft re-entry.
The important component of cemented carbonide is titanium carbide. This is used to deoxidize steelmaking industries. For instance, the 7075 aluminum alloy (AA7075), is about as strong as that of steel but only weighs 1/3 as much. The AA7075 rods are made with TiC nanoparticles and can be used to weld large alloy pieces without phase segregation cracks.

Titanium carbide vs. Tungsten carbide
Tungsten carbonide has an Mohs hardness between 8.5 and 9, a melting temp of 2870degC, as well as a low resistance to electrical currents. This carbide is commonly used for cutting, braiding, armor piercing cores or high-hardness armor, and pointed beads which require high-hardness parts and atoms. This can be used to reflect neutrons.
Titanium carbonide costs less than tungsten caride but can be more difficult to use in cutting.
Combining titanium carbide with tungsten in sintered carbide tool materials can reduce the likelihood of tool pitting.

Price of Titanium carbide
Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity and market sentiment are also important.
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Silicon carbide Provider
Technology Co. Ltd. (), is a trusted titanium carbide manufacturer, and tip supplier. It has over 12-years of experience. All of our products are available for shipment worldwide.

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What is Titanium Carbide? The chemical formula for Titanium carbide is TIC. It has a molecular weight 59.89. Cubic lattice solid gray metallic with face […]

What is Zirconium Silicide?

What is it? Zirconium Silicide ? Zirconium Silicide is a zirconium/silicon intermetallic compounds. It is a ceramic material of high temperature with excellent hardness, melting point, electrical conductivity, thermal conductivity, as well as high thermal shock resistance. It is both a structural material and a new type engineering material that can be used with high-temperature, corrosive media.
The main features and benefits of Zirconium Silicide
Zirconium Silicide is a metallic gray orthorhombic, shiny crystal having a relative density of 4.8822. Zirconium Silicide is insoluble with water, mineral acids, and aqua regia. It is however, soluble in hydrofluoric Acid.

Zirconium Silicide Properties
Other Titles	zirconium(IV) silicide, zirconium disilicide, ZrSi2 powder
No.	12039-90-6
Combination Formula	ZrSi2
Molecular Weight	147.4
Appearance	Gray Black Powder
Melting Point	N/A
Boiling Point	N/A
Density	4.88 g/cm3
Solubility of H2O	N/A
Exact Mass	145.858557

Zirconium Silicide Zi2 Powder CAS 12039-9

Zirconium Silicide applications
It is used as a fine ceramic raw material powder to produce crucibles that are used in the production of semiconductor thin film production.
Production of Zirconium Silicium
A method to prepare zirconium silicide Nanomaterials. This involves: (1) adding 5mmol Zirconium dioxide, 50mmol of titanium powder, and 50mmol each of zirconium silicide into a 20 milliliter stainless steel Autoclave. Next, sealing the autoclave with a lid and placing it into an Electric Furnace that heats up. After the temperature rises to 600°C, the reaction continues for 40 hours before being naturally cooled to room temperatures.
(2) The reaction product was first washed in distilled water. Next, it was washed twice with dilute HCl and dehydrated Ethan. Finally, the filtrate was filtered. To obtain zirconium Silicide nanometers, the vacuum drying box was set at 60°C for 4 hours.
The main supplier of Zirconium Silicide
Tech Co., Ltd. () is a professional silicide 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? Zirconium Silicide ? Zirconium Silicide is a zirconium/silicon intermetallic compounds. It is a ceramic material of high temperature with excellent hardness, melting […]

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