Tag: zirconium

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.
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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 […]

What is Zirconium Diboride Powder?

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

Zirconium Diboride Properties
Other Titles	zirconium boride and ZrB2 powder
No.	12045-64-6
Combination Formula	ZrB2
Molecular Weight	112.8
Appearance	Gray to Black Powder
Melting Point	3246 degC
Boiling Point	N/A
Density	6.09 g/cm3
Solubility of H2O	N/A
Exact	111.923315 g/mol

Zirconium Diboride ZrB2 Powder CAS 12045-64-6

The applications Zirconium Diboride Powder
1. Zirconium Diboride is a strategic material that has high hardness and high thermal conductivity. It also has good oxidation resistance, corrosion resistance, and oxidation resistance. It is used mostly in the thermal protection system, high-temperature electrodes, heat trap pipes and reentry planes.
2. Zirconium Diboride can be used in aerospace as a high temperature resistant material. It is particularly well-suited for use on the surface of a rolling bearing ball.
3. Zirconium boride is a great candidate material to make thin-film electronic components for sensors, actuators, and microsystems operating at high temperatures. This is due to its metal-like conductivity as well as melting temperature of 325°C.
4. Zirconium boride is used in special ceramics refractories industries, nuclear industry and military industry. Zirconium boride can also be used to coat rolling balls or smooth solid materials. Composites made of carbon fiber reinforced zirconium dimoride composite are high in density. However, the composites made from silicon carbide fiber reinforced zirconium dimoride composite are brittle.
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What is it? Zirconium Diboride powder ? Zirconium Diboride (ZrB2), a type of high covalent ceramic material with hexagonal crystal structures, is one example. It […]

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 […]

What is the Application Field of Zirconia

What is zirconia, exactly?

Zirconium dioxide, which has the chemical formula ZrO2, the main oxide of zirconium is white, tasteless, odorless crystals that are insoluble in water and hydrochloric acid. It is chemically inactive. It has the properties high melting point and high resistance.

Zirconia’s main application areas

Raw materials and compounds of metal zirconium

It is used for the production of metal zirconium or zirconium compound, making refractory blocks and crucibles as well as high-frequency ceramics. Mainly used to make piezoelectric ceramics, household ceramics and refractory materials, precious metal smelting Zirconium blocks, zirconium tubes, and crucibles. This is used for the production of steel, non-ferrous and optical metals, zirconium dioxide fibres, and optical glass. Also used in ceramic pigments. It can be used to increase corrosion resistance in epoxy resin.

Refractory

Zirconia fiber can be described as a polycrystalline refractory fibre material. ZrO2 has a higher service temp than other refractory fibres like mullite fiber and aluminum silicate fiber due to its high melting point, nonoxidation, and other excellent properties at high temperatures.

Zirconia can be used in an ultra-high-temperature oxidizing environment above 1500°C for up to two years. Its maximum service temperature is at 2200°C. ZrO2’s resistance to acid and alkali corrosion is superior to that of SiO2O3 and Al2O3. It is insoluble when mixed with water. However, it is slightly soluble in hydrofluoric and sulfuric acids. It can be fused in alkali to create zirconate.

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What is zirconia, exactly? Zirconium dioxide, which has the chemical formula ZrO2, the main oxide of zirconium is white, tasteless, odorless crystals that are insoluble […]

Zirconium Diboride Ceramics

What is Zirconium Diforide? Zirconium diboride The chemical formula for Zirconium diboride is ZrB2. Zirconium Diboride can be described as a type of covalent high refractory ceramic having a hexagonal crystal.
ZrB2 can be used as an ultra-high-temperature ceramic (UHTC), with a melting temperature of 3246°C. Its combination with its low density, 6.09 g/cm 3, and excellent high-temperature stability makes it suitable for high-temperature aerospace applications like rocket propulsion systems or hypersonic flight.
It’s an uncommon ceramic that has high thermal and electric conductivity. This is similar to the hafnium and isomorphic Titanium.

ZrB2 parts can be hot-pressed, which means that they are heated to a powder before being machined. Covalentity of ZrB2 and surface oxides can cause problems in ZrB2 sintering. This causes grain to become coarser before it is densified during sintering. While pressureless ZrB2 can boost the sintering force via the reaction between sintering additions carbon and boron with surface oxidess, the mechanical properties are less than that of hot-pressed ZrB2.

You can add 30 vol% SiC (ZrB2) to increase the oxidation resistance. The protective oxide layer is very similar to protective alumina.

ZrB2 is used for ultra-high-temperature ceramic matrix composites (UHTCMCs).

Zirconium Diboride ZrB2 Ceramics
The high melting points and high conductivity of zirconium-diboride ceramics make them a valuable resource for nuclear control materials and composites.
Additionally, it is more conductive than many other ceramic materials. It can also be used in wire cutting to create complex-shaped parts.

Zirconium Diboride Uses
1. Refractory material
ZrB2 is a great special refractory substance that can be used to make casting molds, high-temperature temperature thermocouple protector bushings, and the crucible for metallurgical material. The airtightness and conductivity of ZrB2 ceramic are not great when it is used for thermocouple shielding. It must be used with an aluminum oxide outer casing in order to perform temperature measurement. You can use the thermocouple sleeves of this material in brass and molten steel melt for long periods. ZrB2 ceramics may also be used in refractories as antioxidants.
2. Materials for electrode
ZrB2 can be used for electrode materials and electric contact materials due to its electronic conduction mechanism and low resistance. A casing thermocouple material was developed in 1994 by researchers that was compatible with ZrB2 as well as graphite. The ability to work under an oxygenizing atmosphere (1200-1600) has been demonstrated by experiment. A large value thermocouple, at 70mV at 1600 is possible, as well as a very high thermoelectric potential rate. The thermocouple can be used to measure temperature in special circumstances where a metal thermocouple or radiation thermometer is not available.
3. Andere
ZrB2 has an excellent wear resistance and is used for cutting tools. ZrB2 is a highly resistant material that has attracted a lot of attention due to the fact it can withstand corrosion.

Zirconium Diboride Supplier
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What is Zirconium Diforide? Zirconium diboride The chemical formula for Zirconium diboride is ZrB2. Zirconium Diboride can be described as a type of covalent high […]

What material is zirconium carbide?

What’s ZrC powder exactly?

Zirconium carbid is an extremely hard material that has high melting points and good high-temperature resistance. You can use them to create alloy steel, and as solid fuel for rocket engines. This is also the raw material used to make zirconium metal or zirconium trioxide, as well as fine ceramic materials.

This material has a strong ZrC-C covalent bond which gives it a high melting temperature (3530degC), high module (440 GPa), hardness (25) and hardness (55%). ZrC’s density is 6.73g/cm3 lower than that of other carbides, such as TaC (14.75 g/cm3) or WC (15.8g/cm3). ZrC may be used for supersonic or rocket/hyper-jet aircraft.

Method of production for zirconium carbonide

Both technetium oxide (or charcoal) are the raw materials. They are combined, then heated in a hydrogen atmosphere to 2400. Mixing zirconia oxide and carbon black is also possible. They can be molded under pressure and heated to 1800 in an Induction Heating graphite Crucible. Once the hydrogen atmosphere has passed, they are added to Iy2% carbon noir and annealed at 1600 1900 in vacuum to make zirconium caride. You can also mix zirconium dioxide and magnesium, then heat to 750 and pickle with hydrochloric acids to extract byproducts.

Chemical vapor deposition (CVD) is another method of manufacturing. The process involves heating the zirconium sponge, and decomposing any halide gases. The preparation of composite materials is one way to increase the resistance to oxidation. ZrC–ZrB2 is the preferred composite material. These composite materials are capable of working at temperatures above 1800 degrees Celsius. This situation can be improved by using another material, like TRISO fuel particle as a barrier.

Properties of chemicals ZrC powder

Zirconium carbonide is a cubic, shiny and gray crystalline powder. Lattice constant. 1 0. 46983nm. Melting point 3532. Boiling point 5100. Relative density 6. 73. The Mohs Hardness is 8.9 9. Microhardness is 2.700kg/mm. Elastic modulus of 3. 48x10sN/mm2, thermal expansion coefficient 6. The heat of formation for -196 is 73x10s N/mm2. 8kj/mol specific heat potential is 37. 8J/(mol–K), and resistance is 42u cm. Hydrochloric acid is insoluble. It dissolves in hydrofluoric and nitric acids. However, it is soluble with hydrofluoric and hot sulfuric acids containing hydrogen peroxide. The chemical reaction with chlorine can cause zirconium dioxide to be formed at higher temperatures.

ZrC powder’s price

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ZrC Powder Supplier

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What’s ZrC powder exactly? Zirconium carbid is an extremely hard material that has high melting points and good high-temperature resistance. You can use them to […]

Why Hafnium Carbide Can Form Solid Solution with Many Compounds?

What is Hafnium Carbide? Hafnium carbide This gray solid needs to be stored at room temperature. Hafnium carbonide is capable of forming a solid solution when mixed with other compounds such as ZrC or TaC. One example is that of a composite carbide with HfC-4TaC. It has two phases. One is the eutectic form of hafnium carbonide tantalum caride. The other is a needle-like, free graphite phase. You can use it as the throat material for a rocket tube. Hafnium carbide is made usually from hafnium oxide (HfO2), carbon and an inert- or reducing atmosphere. It is heated to 1900°C. Hafnium carbonide can be combined with other compounds such as ZrC or TaC to form solid solutions. ).

Introduction to Hafnium
Hafnium is often found in nature alongside zirconium. Zirconium minerals that contain hafnium all include zirconium. Hafnium, zirconium, and both are very similar. In stone, beryllium zircon may contain as much as 15% HfO2. Metamorphic zircon can also contain more than 5% HfO2. Both of these minerals do not have much reserves so they are rarely used in industry. Hafnium can be mainly extracted from zirconium. To avoid accidental combustion, sponge hafnium must be carefully removed from the crucible. You should break large pieces of sponge hafnium down into small, manageable pieces. These can be used to make consumable electrodes and to melt and form an ingot. Sponge hafnium should not be subject to spontaneous combustion when crushed. Further purification of sponge haffnium follows the same procedure as for titanium and zirconium using the iodide-thermal decomposition process. Zirconium has slightly different control conditions. Keep the sponge hafnium blocks in close proximity to the iodization tanks at 600. The temperature at the centre of the hot wire is 1600, which is much higher than 1300 for making zirconium “crystalrods.” Forging, extrusion and tube drawing are some of the steps involved in molding hafnium.

Hafnium carbide’s main uses
It is used primarily to produce control rods for nuclear power plants. Pure hafnium, which is a plastic material, can be processed at high temperatures and resists corrosion. It’s an important component of the atomic energy sector. Hafnium, which has a high thermal neutron capture cross section, is an excellent neutron absorber. This can also be used to protect atomic reactors and as a control rod. Hafnium can also be used to propel rockets. The cathode of Xray tubes can be made from it in the electrical sector. Hafnium and other alloys can be used for the protection of frontal layers on rocket nozzles as well as glide reentry airplanes. HfT alloys can also be used in the manufacture of tool steels or resistance materials. Hafnium, an additive element, is used in heat-resistant alloys like tungsten and molybdenum. HfC, due to its high melting point and hardness, can be added to cemented carbides. 4TaC *HfC’s melting point is approximately 4215. This compound has the highest melting points.

Hafnium Carbide: Price
Hafnium Carbide’s purity and particle size will impact the price. The purchase volume may also have an effect on the price. Large quantities of smaller amounts will result in a lower price. On our official website, you can see the price for Hafnium Carbide.

Hafnium Carbide supplier
The Advanc3dmaterials Advanced Material Nano Technology Co. Ltd. Luoyang City (Henan Province), China. This is a trusted and reliable global supplier of chemical materials and manufacturer. This company is a trusted supplier of high quality chemical materials and nanotechnology products with more than 12 year experience, such as Hafnium carbide, nitride or graphite powder, as well sulfide and 3D printing material. We are happy to provide high-quality Hafnium Carbide at a low price. Get in touch Ask any question.

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What is Hafnium Carbide? Hafnium carbide This gray solid needs to be stored at room temperature. Hafnium carbonide is capable of forming a solid solution […]

An Ultra-high Temperature Structural Ceramic Material: Zirconium Diboride Ceramics

What is zirconium Diboride? Zirconium boreide is a chemical and has the molecular formula ZrB2. Nature gray hard crystal. The three main components of zirconium Boride are zirconium monoboride (zirconium diboride), zirconium trimoride (zirconium triboride), and zirconium triporide. The stability of zirconium boride in wide temperatures is limited to the diboride. The majority of industrial production uses zirconium boride. Zirconium dioxide is a hexagonal or gray crystal, powder, or crystal with a relative density of 5.8. The melting point at 3040°C is 3040°C. High resistance to thermal shock, high resistance, and anti-oxidation at elevated temperatures. Metallic luster. The melting point is approximately 3000degC.

Making Zirconium Diboride Pulver

ZrB2 powder can be prepared primarily using high-oxide or zirconium for boronization. Traditional synthesis involves the use of a high-temperature induction furnace, resistance furnace to achieve oxide carbothermal reducibility. While this is a straightforward process, it is not as efficient. Also, at around 1800°C, the quality of synthetic powder is less pure and the particle sizes are larger. , Poor sintering activity. Methods such as carbothermal reduction and high-temperature auto-propagation methods, mechanical alloying methods, ceramic precursor cracking techniques, liquid phase methods, etc. These are the most common now.

Zirconium Diboride ceramic Materials

Zirconium Diboride Ceramics are highly valued for their use in composite, high-temperature, structural, and electrode materials. These include turbine blades, and magnet fluid power generation electrodes for the aviation industry. Additionally, it is more conductive than other ceramic materials. It can also be used in wire cutting to create complex shapes.

Refractory

ZrB2 ceramics make excellent special refractory material, and can be used for high-temperature thermocouple protective sleeves, casting moulds, metallurgical crucibles, and other purposes. These ceramics aren’t very conductive and leaky when they’re used for thermocouple protection sleeves. For accurate temperature measurement, the thermocouple protection sleeves must be used in conjunction with an alumina inner shirt. You can use the thermowell for extended periods in brass and molten metal melt. ZrB2 ceramics may also be used to protect refractory materials.

Electrode materials

ZrB2’s low resistance and electronic conduction conductive mechanism make it suitable for electrode materials and electric shock materials. It can also be used to create metal thermocouple electrodes or high temperature heating elements. A sleeve type thermocouple material was developed by researchers in 1994. It is paired with ZrB2 (graphite) and it can be used for high temperature heating elements. Research has shown it works in an oxidizing environment at 1200-1600°C. This thermocouple can also be used for continuous temperature measurements in special circumstances where other metal thermocouples or radiation thermometers may not work. It makes a great thermocouple. Tungstenmolybdenummetals (aka. Tungstenmolybdenummetals is an advanced material. With over 12 years’ experience, Tungstenmolybdenummetals is an established global supplier of chemical material. High purity, small particles size, and low impurity are the hallmarks of our Zirconium Diboride Powder. We can help you if your requirements are lower.
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What is zirconium Diboride? Zirconium boreide is a chemical and has the molecular formula ZrB2. Nature gray hard crystal. The three main components of zirconium […]

Zirconium Oxide ZrO2 powder CAS 1314-23-4

About Zirconium Oxide ZrO2 powder:
Zirconium oxide (ZrO2), sometimes known as zirconia (not to be confused with zircon), is a white crystalline oxide of zirconium. Its most naturally occurring form, with a monoclinic crystalline structure, is the mineral baddeleyite. A dopant stabilized cubic structured zirconia, cubic zirconia, is synthesized in various colors for use as a gemstone and a diamond simulant. Our company also can supply zirconium oxide ceramic(zro2 ceramic) products

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Zirconium oxide is chemically unreactive. It is slowly attacked by concentrated hydrofluoric acid and sulfuric acid. When heated with carbon, it converts to zirconium carbide. When heated with carbon in the presence of chlorine, it converts to zirconium tetrachloride.
Zirconium dioxide is one of the most studied ceramic materials. ZrO2 adopts a monoclinic crystal structure at room temperature and transitions to tetragonal and cubic at higher temperatures. The change of volume caused by the structure transitions from tetragonal to monoclinic to cubic induces large stresses, causing it to crack upon cooling from high temperatures.

Three phases are known: monoclinic below 1170 °C, tetragonal between 1170 °C and 2370 °C, and cubic above 2370 °C. The trend is for higher symmetry at higher temperatures, as is usually the case. A small percentage of the oxides of calcium or yttrium stabilize in the cubic phase. The very rare mineral tazheranite, (Zr, Ti, Ca)O2, is cubic. Unlike TiO2, which features six-coordinated titanium in all phases, monoclinic zirconia consists of seven-coordinated zirconium centers. This difference is attributed to the larger size of the zirconium atom relative to the titanium atom.

The ZrO2 band gap is dependent on the phase (cubic, tetragonal, monoclinic, or amorphous) and preparation methods, with typical estimates from 5–7 eV. A special case of zirconia is that of tetragonal zirconia polycrystal, or TZP, which is indicative of polycrystalline zirconia composed of only the metastable tetragonal phase. Feel free to send an inquiry to get the latest price if you would like to buy Zirconium Oxide ZrO2 powder in bulk.

Performance of Zirconium Oxide ZrO2 powder :
The chemical property of zirconium dioxide is inactive, and has the properties of high melting point, high resistivity, high refractive index and low coefficient of thermal expansion, making it an important high temperature resistant material, ceramic insulating material and ceramic sunscreen, and it is also the main part of artificial drills. raw material. The band gap is about 5-7eV.

Technical Parameter of Zirconium Oxide ZrO2 powder :
Zirconium Oxide particle size: 200nm
Zirconium Oxide crystal: monoclinic crystal
Zirconium Oxide purity: 99.9%
Fe2O3 content: ≤0.003
SiO2 content: ≤0.003
TiO2 content: ≤0.03
Al2O3 content: ≤0.002
Na2O content: ≤0.001
CaO content: ≤0.002

How is Zirconium Oxide ZrO2 powder produced?
The industrial refractory material is fully stabilized zirconia, and most of the electric mete is made. Carbon and stabilizable calcium oxide were added to the zircon meter fuse, and the zirconia and calcium oxide was used to generate a solid solution, and then stably zirconia was produced while the zirconia and the calcium oxide was used to form a solid solution. Stable and partially stabilized zirconia used in fine ceramics is generally prepared with wet.

The most mature and commonly used is neutralization. The purified chloride zirconium is dissolved with pure water, filtrate the insoluble matter, adjust the zirconium concentration in the solution, and add the required amount of a cerium chloride solution (or other rare earth metal or alkaline chloride solution), add ammonia water Medium and precipitation. The precipitate was washed with hot water and then filtered, dried and calcined. Ultrafine stabilized zirconia powder can be obtained by treating the calcined product.
Partially stabilized zirconia is to control the amount of added stabilizer, which is not sufficient to achieve complete stability. Partially yttria zirconia has high strength and thermal shock resistance, and there is a relatively wide application in structural ceramics.

Applications of Zirconium Oxide ZrO2 powder:
For metal zirconium and zirconium compounds, fire bricks and crucibles, high-frequency ceramics, abrasive materials, ceramic pigments and zirconates are mainly used for piezoelectric ceramic products, daily ceramics, refractory materials and precious metals smelting Zirconium brick, zirconium tube, the crucible, etc.

Refractory
Zirconia fibers are polycrystalline refractory fiber material. Due to the high melting point of the ZrO2 substance itself, the non-oxidation and other high-temperature excellent characteristics, the ZrO2 fiber has higher use temperatures than other refractory fibers such as alumina fibers, mullite fibers, aluminum silicate fibers. The zirconia fiber is used for a long time in a super high-temperature oxidation atmosphere above 1500 ° C, and the highest temperature is as high as 2200 ° C, and even 2500 ° C can maintain a complete fiber shape, which is currently the top top of the topic. Fiber material.

Gas turbine
The application of plasma spray zirconium oxide thermal barrier coating on-air and industrial gas turbines has great progress, which has been used for turbine portions of gas turbines within a certain limit. Since this coating can reduce the temperature of 50 to 200 ° C of the air-cooled high-temperature member, the durability of the high-temperature member can significantly improve the durability of the high-temperature member, or improve the temperature of the gas temperature or reduce the amount of temperature required to maintain the high-temperature member. Change, thereby increasing the efficiency of the engine.

Ceramic material
Since the refractive index of zirconia is large, the melting point is high, the corrosion resistance is strong, so it is used in the kiln industry. Piezoelectric ceramic products include filters, speakers ultrasonic water detectors, and the like. There are also daily use ceramics (industrial ceramic glaze), zircon tiles and zirconium tubes for precious metal smelting. Nano-grade zirconia can also be used as a polishing agent, abrasive, piezoelectric ceramic, precision ceramic, ceramic glaze and high-temperature pigment matrix material.

Other
In addition, zirconia can be used in the manufacture of white-hot gas masks, enamel, white glass, the refractory crucible. X-ray photography. Grinding material. To make the light source lamp, thick film circuit capacitive material, piezoelectric crystal transducer formulation in infrared spectrometers.

Storage Condition of Zirconium Oxide ZrO2 powder :
Zirconium Oxide ZrO2 powder should be stored in dry, cool and sealing of the environment, can not be exposure to air, in addition should avoid the heavy pressure, according to ordinary goods transportation.

Packing & Shipping of Zirconium Oxide ZrO2 powder :
It is packed in double plastic bags inside, which can be filled with argon in vacuum; it can be vacuumed and filled with argon for protection..
Zirconium Oxide ZrO2 powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Zirconium Oxide ZrO2 powder shipping: could be shipped out by sea , by air, by express as soon as possible once payment receipt.
Zirconium Oxide ZrO2 powder CAS 1314-23-4插图

Zirconium Oxide ZrO2 Powder Properties
Other Names	Zirconia, Dioxozirconium, zirconium, dioxo-, Zirconium dioxide, Zirconium White, Zirconium(IV) oxide, Zircosol, Rhuligel, Zirconic anhydride, Diketozirconium
CAS No.	1314-23-4
Compound Formula	ZrO2
Molecular Weight	123.22
Appearance	White Powder
Melting Point	2,715° C (4,919° F)
Solubility in water	N/A
Density	5680 kg/m3
Purity	>99%
Particle Size	325 mesh
Boling point	4,300° C (7,772° F)
Specific Heat	N/A
Thermal Conductivity	N/A
Thermal Expansion	N/A
Young’s Modulus	N/A
Exact Mass	121.895 g/mol
Monoisotopic Mass	121.894531 Da


Zirconium Oxide ZrO2 Powder Health & Safety Information
Safety Warning	Warning
Hazard Statements	H315-H319-H335
Flashing point	N/A
Hazard Codes	N/A
Risk Codes	N/A
Safety Statements	N/A
RTECS Number	ZH8800000
Transport Information	NONH
WGK Germany	nwg

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About Zirconium Oxide ZrO2 powder:Zirconium oxide (ZrO2), sometimes known as zirconia (not to be confused with zircon), is a white crystalline oxide of zirconium. Its most […]

Information about High Temperature Material Zirconium Boride

What is Zirconium Boride Zirconium boreide is highly covalent and refractory ceramic material that has hexagonal crystal structures. ZrB2 can melt to 3246 at ultra high temperatures. ZrB2’s low density of 6.09g/cm3 and high high-temperature resistance make it an ideal material for aerospace applications, such as rocket propulsion or hypersonic flight.

Zirconium Boride

Zirconium diboride is one the most popular boride materials. In the boron-zirconium network, there are three kinds of zirconium bore: zirconium monoboride (or zirconium disboride), zirconium dodecylboride (or zirconium dimoride). Zirconium zirconium is a prepared zirconium boride, which can also be used for its industrial applications. Zirconium boreide is an cubic C32 type compound of metalloid structures. High melting points and hardness are determined by the ZrB ionic link between the boron and zirconium faces and the strong bond from the BB covalent bonds. It also has stability. Zirconium boreide therefore has high melting points, hardness, stability and excellent thermal conductivity.

Zrconium Boride

preparation There are many ways to make zirconium-boride.

Zirconium Boride

Due to its outstanding characteristics, zirconium bore has been used extensively as a variety of high-temperature materials as well as functional materials such as continuous temperature measurement sleeves for molten metal, continuous cast iron immersion nozzle, turbine blades in aerospace industry, magnet fluid generator electrodes, and special circuits.

As modern technology advances, including aerospace, aviation, nuclear energy and smelting technologies, there are more strict requirements for high-temperature structural material. These materials must have high-temperature capabilities to adapt to extreme environments such as heat shock resistance, high temperature resistance, Corrosion resistance or oxidation resistant. The advantages of zirconium-boride ceramics include high melting point and high hardness. They also have good electrical conductivity and neutron control capabilities. Tungstenmolybdenummetals advanced materials Tech Co., Ltd (Tungstenmolybdenummetals ), a leading zirconium-boride producer, has more than 12 years’ experience in chemical product development and research. We can help you find high-quality zirconium boreide. Please contact us to send an inquiry.
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What is Zirconium Boride Zirconium boreide is highly covalent and refractory ceramic material that has hexagonal crystal structures. ZrB2 can melt to 3246 at ultra […]

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