Magnesium Calcium Master Alloy Introduction:
The pureness of the magnesium calcium master alloy used for the alloy is no less than 99%. The surface of the magnesium calcium master alloy ingot is grey, the fracture is silver gray, both should be clear, with no slag inclusion.
Magnesium Calcium Master Alloy Applications:
Construction,Sports & Leisure,Transportation,
Household Appliances and etc
Magnesium Calcium Master Alloy Specification:
Product name
|
Product model
|
Main element content
|
Impurity Content (≤%)
|
Mg
|
Fe
|
Si
|
Cu
|
AL
|
Ni
|
Mg-Ca master alloy
|
Mg-Ca10
|
Y10±2%
|
0.35
|
0.15
|
0.1
|
0.05
|
0.01
|
Balance
|
Mg-Ca15
|
Y15±2%
|
0.35
|
0.15
|
0.1
|
0.05
|
0.01
|
Magnesium Calcium Master Alloy Packing
Our Magnesium Calcium Master Alloy is wrapped in foam and packaged in plywood cases to ensure safe storage and transportation.
FAQs
What is Magnesium Calcium Master Alloy?
Magnesium Calcium Master Alloy is an alloy made by combining magnesium and calcium. It is primarily used as an additive in magnesium alloys to improve their mechanical properties, particularly their strength and castability. This master alloy is also used to refine the grain structure and enhance the overall performance of magnesium-based materials.
2. What are the key properties of Magnesium Calcium Master Alloy?
- Improved Strength: The addition of calcium increases the strength and hardness of magnesium alloys, making them more suitable for high-performance applications.
- Enhanced Castability: Magnesium alloys with calcium exhibit improved fluidity during casting, leading to better mold filling and fewer casting defects.
- Grain Refinement: Calcium helps refine the grain structure of magnesium alloys, improving their mechanical properties and overall performance.
Q3. Why is Calcium added to Magnesium Alloys?
Calcium is added to magnesium alloys to improve their overall mechanical properties, especially strength and hardness. It also enhances the fluidity of the molten alloy during casting, resulting in better-quality castings and reducing defects. Calcium helps refine the grain structure, improving the material's toughness and durability.