Magnesium Master Alloy (Mg)
Name | Raw material | · doping temperature | Notice | · Other Notes |
---|---|---|---|---|
MgCe30 alloy | Mg ingot≥99.95% | 720℃±5℃ | The additive of rare earth master alloy should be suitable for rare earth special flux | Improve the metal's high temperature resistance, castability, corrosion resistance, and improve mechanical properties.It is added before casting to reduce oxidation, refine grains, improve the rollability of the sheet, and reduce the micro-battery effect.Improve casting properties, refine structure, improve mechanical properties at room temperature, improve high temperature mechanical and creep properties, and improve corrosion resistance. |
MgNd25 alloy | ||||
MgZr30 alloy | ||||
MgY30 alloy | ||||
MgLa30 alloy | ||||
MgLaCe30 alloy | ||||
MgRe30 alloy | ||||
MgGd25 alloy | ||||
MgCa20 alloy | ||||
MgMn2.5 alloy | ||||
MgSr10.15 alloy | ||||
MgSi10 alloy |
Overview
The master alloy is a kind of metal as the matrix, and one or several elements are added to it to solve the problems of easy burning, high melting point, difficult to melt, high density and easy segregation, or special alloys used to improve the properties of the alloy. It is an additive functional material.
The composition of the intermediate alloy is complex and various, and it is designed according to the composition and special requirements of the metal material to be smelted. A kind of base alloy and additives, it cannot be used directly as a metal material. Compared with the element to be added, the master alloy generally has a lower melting point, a faster dissolution rate, a more stable yield, and a stronger ability to improve the properties of the alloy. Therefore, the master alloy can be used as an element in the alloy production process. It has a wide range of applications in the metal industry.