Zirconium hydroide has the chemical formula ZrH2, a density of 5.6g/cm3, and a heat generation rate of -39.7kcal/mol. It is prepared in the same way as titanium hydride. Purity: 99%
Particle Size : 325mesh
Zirconium Hydride (ZrH2) Powder:
The density of the zirconium hydride ZrH2, is 5.6g/cm3, melting is decomposed to form heat-39.7kcal/mol. The zirconium hydrogenate is made by hydrogenating titanium at temperatures between 900 and 900 deg C. Its molecular weight is 93.24. The zirconium hydrogen fluid can be dissolved with ethanol or hydrofluoric acids; it has reacted strongly with water, acid and halogenated compounds.
The zirconium hydrogen fluid is a powder that can be stable. Air and water will also remain stable in normal conditions. It reacts violently when exposed to oxidizing acids and strong acids. Zirconium is a stable powder that can burn smoothly and easily in vacuum.
L. Zirconium Hydride shows an alloy formed from zirconium. Hydrogen acts as a hardening element to prevent dislocation of zirconia's atomic lattices. Hydrogen can be used to control the hardness and ductility of the resulting hydride by varying the hydrogen content and the hydrogen present in the precipitation phase. It is possible to make zirconium hydroide stronger, harder than zirconium by adding hydrogen, but it will have a lower toughness. If you are interested in buying Zirconium hydride ZrH2 as a bulk, please send us an inquiry for the most recent price.
Zirconium Hydride Powder CAS 7704-99-6:
In normal conditions it is a stable powder. It reacts violently to strong acids and oxidants. It is flammable, but decomposes in a vacuum at 300 degrees C.
How are and Zirconium Hydride ZrH2 Poudres produced?
The metal interacts with hydrogen to produce zirconium hydrogenide. Zirconium metallic sponge with 99.8% purity was heated up to 400 to 600 degrees C and directly reacted to form zirconium hydrogen fluid. Exothermic is the reaction. This reaction can also occur at room temperatures. To achieve uniform integral hydrogenation, annealing is done at 400-600 deg C over several hours up to several weeks. Zirconium hydrogenide, even in a vacuum high enough to be considered a room temperature environment, will quickly oxidize. Since the formed nano-thin oxygen layer prevents further diffusion of oxygen into the material it is possible to ignore changes caused by oxidation. You can reduce zirconium dioxide at 600 deg C using a stream of hydrogen to obtain zirconium-hydride.
Zirconium Hydride (ZrH2) Powder:
Pure zirconium powder is used as a hydrogenation catalyst in powder metallurgy and as an absorbent for vacuum tubes. In vacuum systems, zirconium helps seal the gap between ceramics and metals.
Zirconium Hydrogenide is used as an industrial ingredient for fireworks and flux. It is also used to seal metal-ceramics, and in nuclear reactors.
ZrH2 has many uses, including powder metallurgy. ZrH2 also acts as a hydrogenation catalyst, a foaming agent, a vacuum tube, a reducing and oxidizing agent. Another use is as fuel for fireworks.
Zirconium Hydride is a powerful reducing agent. Add it to your mix. When iron alloy is prepared, desulfurization and desoxicide agents are added.
Metal coatings can be made by mixing nitride and carbonized carbonized carbide.
Due to the fact that ceramics are easily infiltrated by metal, zirconium has been used as an adhesive between ceramic and metal for vacuum tubes.
The zirconium hydroide can be used in a variety of ways, including as a neutron reducer, an atomic reactor material, or as a firework.
Store Zirconium Hydride Powder ZrH2 in the following conditions:
Zirconiumhydride ZrH2 is affected by dampness, so it should be packed in vacuum and kept in a dry and cool room. ZrH2 Powder should not be exposed to stress.
Shipping & Packing of Zirconium Hydroide ZrH2:
The packaging depends on the amount of Zirconium Hydroide ZrH2 powder.
Zirconium Hydride ZrH2 Poudre packing: Vacuum packaging, 100g,500g or 1kg/bag; 25kg/barrel.
Zirconium Hydride ZrH2 POWDER shipping: Can be sent out via air, sea, or express as quickly as possible after payment receipt.