Mg20LaCemm Magnesium Lanthanum Cerium With Rare Earth Elements
|Place of Origin:||CHINA|
|Brand Name:||HIGH BROAD|
|Model Number:||MG La Ce ALLOY|
Payment & Shipping Terms:
|Minimum Order Quantity:||50-100kgs|
|Packaging Details:||Mg20LaCe in export drum|
|Delivery Time:||5-10 days|
|Payment Terms:||L/C, D/A, D/P, T/T, Western Union, MoneyGram,Alipay,Credit Card|
|Supply Ability:||300 tons per year|
|Material:||Mg20LaCemm||Type:||Magnesium With Rare Earth Elements|
|Content:||Magnesium Yttrium||Usage:||Spice Rack For The Metal Industry|
|MgY:||Master Alloy||Standard:||Magnesium With Rare Earth|
magnesium sacrificial anode,
magnesium aluminum alloy
Mg20LaCemm Magnesium Lanthanum Cerium WITH RARE EARTH
MgLaCe master alloy Ingot
Chemical content: LaCe20%
1, We choose ≥Mg99.95 of GB3499- 2003 for rare earth alloy.
2, rare earth Ca/RE≥99.95%.
3, Using special crucible in the process of production and gas protection to strictly control the impurity content
4, Small ingot and large surface area, uniform composition, no need to be broken and easy to melt.
Directions for use
According to the customer request to add rare earth alloy. Removing Packaging shrink film first and preheat to 300 ℃. After adding all alloy, raise temperature to 720 ℃+ / - 5 ℃and stirring.
Note: Please choose earth special flux as refining flux .
Adding Neodymium before die-casting can reduce the oxidation of the melt, and refine alloy grain, and improve the rolling of sheet. The presence of calcium can also reduce the micro battery effect of magnesium alloy.
Improve castability,creep resistance and tensile strenth in high temperature and anticorrosion.
Other Magnesium Rare Earth Alloy
MgNd Alloy; MgLa Alloy; MgSb Alloy; Mg-Ce Alloy; MgSr Alloy; MgEr Alloy; MgSn Alloy; MgYb Alloy; MgIr Alloy; MgDy Alloy; MgIn Alloy; MgRe; MgTi; MgRe (La); MgCo; MgMn; MgSi; MgCa; MgV; MgFe; MgZn; MgNi; MgSc; MgCu; MgY; MgAl; MgZn.
Master alloys - Spice rack for the metal industry
Similar to a restaurant chef using small additions of spices to fine-tune his dishes, the metal industry uses master alloys to adjust the properties of its products.
A master alloy is a base metal such as aluminium, copper or nickel combined with a relatively high percentage of one or two other elements. An example is AlTi10 - a binary alloy consisting of 10% titanium in aluminium. A master alloy is a semi-finished product. It is manufactured for use as a raw material by the metals industry. Master alloys are produced in various shapes. Examples are: ingot, waffle plate, rod in coils, etc.
Master alloys are used worldwide. Invariably they are found in plants where metal is melted, alloyed with various elements and then cast into shapes. This can be aluminium, iron, steel or even a precious metal such as gold.
There are various reasons for adding master alloys to a melt. One of the main applications is composition adjustment, i.e. changing the composition of the liquid metal to achieve the desired chemical specification. Another important application is structure control - influencing the microstructure of a metal during the casting and solidification process in order to change its properties. Such properties include mechanical strength, ductility, electrical conductivity, castability or surface appearance. A master alloy is sometimes also referred to as "hardener", "grain refiner" or "modifier" depending on its application.
Reasons for using a master alloy instead of a pure metal can be economical, technical or both. Some elements show high losses - or poor yield - when added in pure form. Others will not dissolve at all at the furnace temperature prevailing in a casthouse. A master alloy often provides the solution, as it dissolves much quicker at lower temperatures, saving valuable energy and production time.
The master alloy industry uses specialised equipment such as high temperature induction furnaces to produce the alloy composition suitable for use by the regular metals industry.
Master alloy fabrication is a truly specialised field.