| Customization: | Available |
|---|---|
| Shape: | Round |
| Primary Supplement Type: | Magnesium |
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| Brand: | Haoyu |
| Manufacturing Country And Region: | China |
| Manufacturer number: | HY-01 |
| Type: | Granules |
| Material: | magnesium |
| Operation area: | Metal element 12 |
| Standard classifications: | |
| Name, symbol, ordinal number: | Magnesium, Mg, 12 |
| Assay: | 99.9% |
| Further information: | |
| Melting point: | 923 K (650 ° C) |
| Density: | 1.738 g / cm3 |
| Thermal conductivity: | 156 W / (m K) |
| Boiling point: | 1380 K (1107 ° C) |
Due to its properties, pure magnesium is rarely used in technology. It is also used as a reducing agent to extract metals such as beryllium, titanium, uranium and others from their oxides or halides. The majority of the recovered magnesium is used in the production of magnesium alloys. These alloys are characterized by a low density, high mechanical strength and corrosion resistance. In addition, they can be processed well at low cost. They are used in aircraft and motor vehicle construction, mechanical engineering, in the construction of means of transport, household machines, office machines and optical devices in electrical engineering and electronics.
| Product Name | MF | Purity | Particle Size | Bulk Density | Melting Point | Color |
| Magnesium Granules | Mg | 99.95% | 4 * 4mm | 1.74 g/cm3 | 648.8ºC | Silver White |
Production Method of Magnesium Granules :
Physical method: The physical method uses physical means to crush magnesium raw materials into particles. The method mainly includes mechanical ball milling and gas atomization methods.
Mechanical ball milling method: The magnesium raw material is mixed with the grinding ball, and the raw material is crushed into particles by the impact and friction of the grinding ball through the high-speed rotating mill. The advantages of this method are simple to process, low cost, low production efficiency, and coarser product size.
Gas atomization method: The use of high-temperature gas to spray dry magnesium raw materials so that they form fine particles. The advantages of this method are fine particle size and high production efficiency, but the equipment investment is large, and the production cost is high.
Chemical method: The chemical method uses chemical reactions to convert magnesium raw materials into magnesium particles. The method includes the precipitation, electrolysis, and spray pyrolysis methods. Precipitation method: the magnesium ion and the appropriate precipitant reaction, the formation of insoluble in water magnesium precipitate, and then through filtration, washing, drying, and other processes to obtain magnesium
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