Supply Magnesium Granules Mg Granules 99.95%

Magnesium particle is a metal material with excellent physical and chemical properties and has many applications in many fields. Here are some of the main application areas: 

Automotive manufacturing: Magnesium particles are widely used in automotive manufacturing due to their lightweight and high-strength properties. Using magnesium particles can significantly reduce the vehicle's weight, improving fuel efficiency and reducing carbon emissions. In addition, magnesium particles also have excellent corrosion resistance, which can ensure the car's durability after long-term use. 

Aerospace: In the aerospace sector, lightweight and high strength are key performance requirements. Magnesium particles are excellent at this, making it widely used in manufacturing products such as aircraft and rockets. 

Electronic equipment: Magnesium particles make lightweight, durable electronic equipment. For example, magnesium particles provide good impact and corrosion resistance in laptops, tablets, and smartphones. 

Construction: In the construction industry, magnesium particles make lightweight, high-strength building materials such as doors and Windows, curtain walls, and suspended ceilings. The characteristics of magnesium particles make these products have better insulation, sound insulation, and impact resistance. 

Biomedical: Magnesium particles also have a wide range of applications in the biomedical field. For example, magnesium particles can act as drug carriers, delivering drugs accurately to the site of the lesion. In addition, magnesium particles can also be used to make biodegradable medical devices, such as surgical sutures. 

New energy: In the new energy field, magnesium particles can manufacture efficient energy storage devices, such as magnesium and hydrogen-magnesium batteries. These batteries have advantages such as high energy density and long life and are expected to play an important role in the future energy mix. 

Environmentally friendly: Magnesium particles can make environmentally friendly materials, such as biodegradable packaging and agricultural mulch. These materials can be degraded naturally after use, reducing environmental pollution. 

Sports equipment: Magnesium particles can make lightweight, sturdy sports equipment such as bicycles, rowing boats, and snowboards. These products can provide better performance and comfort to meet the needs of athletes. 

Food industry: In the food industry, magnesium particles can be used to make nutritional supplements and additives. For example, foods containing magnesium particles can provide the minerals the body needs to maintain good health.
 

pMagnesium granules Mg granules should be sealed in vacuum packing and stored in the cool and dry room, the niobium carbide can not be exposure to air. 

Packing & Shipping of Magnesium Granules Mg Granules:
We have many different kinds of packing which depend on the magnesium granules Mg granules quantity.
Magnesium granules Mg granules packing: vacuum packing, 1kg/bag, 10kg/bag, or as your request.
Magnesium granules Mg granules shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

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