Zirconium hydroide ZrH2 powder:
ZrH2 stands for hydride zirconium. It has a density 5.6g/cm3. After melting, heat 39.7kcal/mol forms. Prepare it by heating titanium hydrogenated. The temperature at this point is typically 900 degrees C. These compounds are highly reactive to acids, oxidants and water.
The zirconium fluoride fluid, which is a stable liquid also happens to be stable. In normal circumstances, water and air can remain stable. Zirconium, although it’s susceptible to being strongly acidic and oxidized, can still burn well when ignited and decompose in vacuum temperatures between 300 and 700° C.
L. zirconium hydride is an example of an alloy that has hydrogen bonded to it. Hydrogen can also be used in hardening to prevent dislocations from zirconium’satomic lattices. By altering the hydrogen/hydride proportion (precipitation Phase), you can adjust the hardness, durability and strength of the resulting hydrogenide. Although zirconium has higher hydrogen content than zirconium it can still be stronger and more durable than zirconium. However, zirconium is much less hardy than zirconium. We are happy to sell bulk Zirconium Hydroide ZrH2 Zirconium Hydroide ZrH2 powder.
Zirconium Hydride Powder CAS 7704-99-6:
It can be used as a powder in normal situations to maintain its stability. Strong acids and oxidants can cause it to react quickly. The oxidant causes it to ignite quickly. It then starts to decay in vacuum at 300°C.
How Zirconium Hide ZrH2 pulver is made?
Zirconium hydrogen chloride is formed when this metal reacts with hydrogen. For zirconium hydrogen liquid we heated sponge metal zirconium (purity 99.8%), to high purity hydrogen (99.999%). Exothermic reactions are involved. This can take place even at ambient temperatures. Uniform integral hydrogenation can usually be achieved through annealing for several hours up to several weeks at temperatures between 400 and 600 degrees C. Even in high vacuums, the zirconium-hydrogenide found in air at room temperature will quickly oxidize. The oxidation caused by oxygen diffusion through thin oxide layers can be ignored. To obtain zirconium hydride, you can reduce zirconium dioxide at 600°C by using hydrogen streams.
Zirconiumhydride ZrH2 Pulver:
You can use pure zirconium hydroide to either hydrogenate or absorb powder metals in vacuum tubes. In vacuum systems, Zirconium Hydroide can be used to form a barrier between metallic and ceramic materials.
Zirconium Hydroide is a useful industrial product that can be used in the production of fireworks, flux and other materials.
ZrH2 is used extensively in powder metal mining. You can also use ZrH2 as a fuel for fireworks or to make explosives.
Zirconium hydride is an efficient reducing agent. You can also use it as an ingredient. It’s possible to make desoxicides or desulfurization substances during the manufacture of iron alloy.
Metallic coatings can be made by mixing carbonized calcium carbon with nitride.
Zirconium acts as an adhesive metalceramic to ceramic tubes and other devices because ceramics can infiltrate.
Zirconium Hydroide is useful for neutron reduction and other materials.
Zirconium Hydroide ZrH2 Storage:
ZrH2 can be negatively affected by wet reunions. It is important to keep Zirconiumhydride, ZrH2, dry and in bags. ZrH2 should also be stored away from extreme stress.
Packing and shipping of Zirconium hydroide ZrH2 powder
Packing options vary depending on the quantity of Zirconium Hydroide ZrH2 Powder.
Packing of zirconium hydride ZrH2 Powder:vacuum pack 100g to500g, or one kilogram/bag 25 kg/barrel.
Zirconium Hydride ZrH2 pulp shipping: Shipment by air or water as soon as payment has been received.
Zirconium Hydride ZrH2 Powder Properties |
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Other Titles | Zirconium(II) hydride, Dihydridozirconium, zirconium(2+) dihydride, ZrHx, ZrH, CAS 15457-96-2 (ZrH4), CAS 13940-37-9 (ZrH), zirconium-hydrogen alloy |
7704-99-6 | |
Combination Formula | ZrH2 |
Molecular weight | 93.24 |
Appearance | Dark gray to black powder |
Melting Point | N/A |
Solubility Into Water | N/A |
Density | 5.56 g/cm3 |
Purity | 99.00% |
325mesh | |
Boling Point | N/A |
Particular Heat | N/A |
Thermal Conductivity | N/A |
Thermal Expansion | N/A |
Young’s Modular | N/A |
Exact | 91.920354 |
Monoisotopic | 91.920354 D |
Zirconiumhydride zrH2 pulp safety and health information |
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Security Notice | Danger |
Hazard Statements | H228-H315-H319-H335 |
Flashing Point | N/A |
Hazard Codes | F |
Risk Codes | 11-36/37/38 |
Security statements | 24/25-43-7/8 |
RTECS # | ZH8015000 |
Transport Information | UN 1437 4.1/PG2 |
Germany | 3 |
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