light, strong and corrosion resistant Titanium powder with 99%min and good price

Product name: Titanium powder

Titanium content: ≧99.5%

Product shape: silver gray irregular powder

Preparation method: hydrogenation dehydrogenation method

Product specifications: -60 mesh,-100 mesh,-150 mesh,-200 mesh,-325 mesh,-400 mesh,-500 mesh and other particle size products, can also be distributed according to customer requirements according to a certain proportion of each particle size interval.

Physical properties: Titanium powder is dark gray amorphous powder, boiling point is 3287℃, melting point is 1668℃±2℃. Titanium powder is more active than titanium metal, easy to react with other elements or compounds, easier to oxidize, flammable, explosive, and belongs to dangerous goods. Titanium and titanium alloy powder is usually light gray, as the size becomes smaller and deeper, coarse powder with metallic luster, micro powder is gray, ultrafine powder is black.

Product use: Titanium powder is a very widely used metal powder. Powder metallurgy, alloy material additive. At the same time, it is also an important raw material for metal ceramic surface coating agent, aluminum alloy additive, electric vacuum getter, spray and plating. Titanium powder can be used in the manufacture of a variety of fireworks products, such as colored fireworks shells, cold flame ejectors, aerosols and so on. In these products, the main role of titanium powder is to increase the color brightness of fireworks, improve the burning effect and improve safety.

Product packaging: (1) 1kg aluminum foil paper bag vacuum packaging;

(2) 10kg, 20kg, 35kg, 50kg iron drum packaging;

(3) The dangerous bag iron pass is filled with argon gas protection;

(4) Sea transport, land transport, sea-rail combined transport, etc.

The HDH process for preparing titanium alloy powder is as follows:

1. Hydrogenation. In this step, titanium sponge reacts with hydrogen gas at high temperature and pressure to produce titanium hydride.

2. Break and grind, then break and grind the titanium hydride into a fine powder.

3. Dehydrogenation, and then the titanium hydride powder is heated in a vacuum environment to remove the hydrogen, leaving pure titanium powder.