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Zirconium boreide, a chemical compound with the molecular structure ZrB2, is one example. The nature of grey-colored hard crystals. There are three types of zirconium-boride components: zirconium monoboride and zirconium dimboride.
Purity>99%
Particle Size: 325 Mesh
Zirconium Diboride ZrB2 Pulver:
Zirconium bore chemical substance. Zirconium boreide chemical formula, is ZrB2. Nature gray hard crystals. The three main components of zirconium bore are zirconium monoboridezirconium disboride, zirconium tribromide. The stability of zirconium boride in wide temperatures is limited to the diboride. The main component of industrial production is zirconium boride. Zirconium dioxide is either a hexagonal or gray crystal, as well as a powder. The relative density is 5.8 with a melting point at 3040°C. This product has high resistance to heat, low strength, and excellent stability at high and room temperatures. High resistance to thermal shock, high resistance to oxidation and good resistance at low temperatures. Metallic luster. The melting point is approximately 3000°C.
Zirconium boride ZrB2 a high-covalent, refractory ceramic with a hexagonal crystal construction. ZrB2 can be described as an ultra-high-temperature ceramic (UHTC), with a melting temperature of 3246°C.
The unusual ceramic is extremely thermally and electrically conductive and shares many of the characteristics with titanium diboride. ZrB2 is able to pass EDM basic clay molding due to its excellent electrical conductivity and fire resistance.
ZrB2 parts can be hot-pressed, which means that they are heated and pressurized to melt the powder. ZrB2 is not sinterable due to the covalent nature of its material and the existence of surface oxides. The surface oxides may cause the crystal grains to become coarser before they are able to withstand densification. ZrB2 can also be sintered under pressure. The surface oxides will react with the sintering additives carbon and boron, increasing the driving force of sintering. But, mechanical properties will decline compared to ZrB2 hot-pressed.
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Zirconium Diboride powder ZrB2 powder (CAS 12045-64-6):
Modular formula: ZrB2
Molar mass: 112.85 g/mol
Appearance: grey-black powder
Density: 6.085 g/cm3
Melting point: 3246 °C
Solubility of water
Crystal structure: Hexagonal. hP3
Space group: Space Group P6/mmm No. 191
Zirconium Diboride ZrB2 dust:
TiB2, ZrB2, HfB2, VB2, NbB, NbB2, TaB, TaB2, CrB2, Mo2B5, W2B5, Fe2B, FeB, CoB, Co2B, NiB, Ni2B, Ni2B, LaB6, UB4, UB2.
Zirconium Diboride (ZrB2), a high-covalent refractory ceramic materials with hexagonal crystal structures, is extremely covalent. ZrB2 has an ultra high-temperature ceramic (UHTC), with a melting points of 3246°C. (Metadata may show a higher density due to hafnium impureties). It is a good candidate for aerospace applications, such as rocket propulsion or hypersonic flight. The unusual properties of this ceramic are shared with the hafnium diboride (structural titanium diboride) and it has high thermal and electric conductivities.
How Zirconium Diboride ZirB2 powder is produced?
By metal thermal reduction, ZrO2 or HfO2 can be reduced to their diboron silanes. You can use cheap precursor material and follow the reactions below:
ZrO 2 + B 2 O 3 + 5Mg→ZrB 2 + 5MgO
Precursor materials (ZrO 2, TiO 2, / HfO2 and B4 C) for this reaction are less expensive than those needed for stoichiometric, boron thermoreactions. The following reactions will allow you to prepare ZrB2 at temperatures higher than 1600°C.
2ZrO 2 + B 4 C + 3C→2ZrB 2 + 4CO
Due to the fact that some of the boron is removed during the reduction, there will be a slight surplus. ZrC is the end product of this reaction. But, when the excess of 20-25% B4C is exceeded, ZrC disappears leaving only ZrB2. UHTC produced at a lower synthesis temperature (1600°C), will yield finer particles and better interability. The boron-carbidide must be ground before it can undergo oxide reduction or diffusion.
You can disperse ZrO2 as well as HfO2 on the boron carbonide polymer precursor prior to the reaction. in. By heating the mixture at 1500°C, boron carbide is formed and carbon is produced in situ. ZrO2 and ZrB2 are then reduced.
If the substrate is above 800°C, then the vapors from zirconium titanate and boron trichloride are reduced by the use of the gas phase.
Zirconium Diboride ZrB2 powder–
Zirconium dioxide has high hardness and thermal conductivity. They are also resistant to corrosion. Zirconium boride is used for special ceramic refractory, aerospace and military industries. Zirconium boride can also be used to coat surfaces of rolling balls or smooth solid materials.
High density carbon fiber reinforced zirconium-diboride composites have high strength, while those made with silicon carbide fibre-reinforced diboride compounds are fragile and can cause catastrophic injury.
Zirconium biboride (ZrB2) has the ability to be used for thin-film electronic components in sensor, actuators, micro-systems and micro-systems that operate at high temperature environments. This is because of its metal-like conductivity. Also, it has a melting temp. 3245°C.
Zirconium Diboride ZrB2 Pulse can be used for other purposes:
(1) Zirconium Diboride Powder is used in the manufacture of ceramic materials.
As neutron absorbers, you can use (2) zirconium-diboride powder.
Abrasion-resistant coatings can also be made with (3) zirconium diboride (powder).
The powder of zirconium diboride (4) can be used for crucible lining or anticorrosive chemicals equipment.
As an anti-oxidation material, you can use (5) zirconium boride powder.
The powder of zirconium diboride can be used in refractory materials, particularly when it is anticorrosion.
A thermally enhanced additive can use (7) zirconium-diboride powder.
High-temperature resistance can be achieved by using (8) zirconium boride powder.
Zirconium diboride (9) powder can be used to make a special dope that resists high temperature, corrosion, or oxidation.
Zirconium Diboride ZrB2 Pulver Storage:
ZrB2 powder performance and usage effects can be affected by damp reunion. Zirconium dioxide ZrB2 should therefore be stored in vacuum-packed bags and kept in cool, dry rooms. Additionally, ZrB2 should not be exposed to extreme stress.
Shipping and Packing of Zirconium diboride ZrB2 powder:
There are many options for packing, which depend on the amount of zirconium diboride ZrB2 in your powder.
Zirconium diboride ZrB2 powder packing:vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Zirconium diboride ZrB2 dust shipping: could be sent out by sea or by air?as soon after payment receipt.
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