Magnesium Alloy Products

 Aikerly Product Size

• Magnesium  Ingots

(Single block weight 7.5kg deviation±0.5kg）

• Magnesium Alloy ingots for Castings

• Wrought Magnesium and Magnesium Alloys  Columniform Ingots

Min. Diameter 80mm; max. Diameter: 500mm; Min. Length:100mm, max. Length: 6000mm

• Magnesium  Alloy  Sheets

Min. thickness:1mm,  max.Width: 600mm, max. Length: 2000mm  

• Magnesium Alloy Plate

Max.Thickness:300mm, max.Width: 1000mm, max.Length:3000mm 

• Magnesium Alloy Slabs

max.Size:400×1000×2000mm

• Magnesium Alloy Tubes 

Φ22×2～Φ88×7.5mm

• Magnesium  Alloy Wires    

Φ1.2～Φ11mm

• Wrought Magnesium  and Magnesium Alloys  Sheets and Strips

Thickness 0.5～10 mm,width up to 800mm  

• Magnesium  Alloy  Sacrificial Anode

Φ14～Φ33mm    

• Magnesium  Alloy Extruded Profiles   customized size according to customer

• Magnesium and Magnesium Alloys Scraps 

• Magnesium  Alloy  Customized Parts     

Others: Magnesium alloy products designed and processed according to customer requirements

Aikerly Dimension and Deviation

The products have been manufactured in accordance with the relevant national norms and standards.

Any details regarding chemical composition deviation and size deviation can be found in the specifications of each individual product.

If there are specific accuracy requirements that need to be met, the purchaser should inform the supplier before purchasing the materials.

Aikerly Appearance Quality

The product should have a bright appearance and be free from any visible defects such as oil spots, sundries, oxides, nitrides, wrinkles, holes, cracks, creases, curling lines, etc. However, slight processing streaks may be acceptable.

The edges of the product should be neat and free from cracks.

The product must not have delamination or inclusions.

 Aikerly Product Packaging Transportation and Storage

The packaging, marking, transportation, and storage of these products should adhere to the relevant requirements of GBT32792 and other national standards.

If there are specific customer requirements, such as customized packaging or marking, these can also be accommodated.

AikerlyIntroduction to the Primary Processes of Magnesium Alloy Products

➡️Magnesium Alloy Sheets, Pipes, Bars, Wires, and Profiles:

These are primarily processed using extrusion methods. The extrusion technique for magnesium alloy involves the plastic deformation of magnesium alloy rods at high temperatures to extrude them into desired shapes and sizes. Extrusion is well-suited for processing low ductility and difficult-to-form alloys like magnesium alloy.

D.Green Continuous Extrusion Technique，This method utilizes granular or rod materials cleverly, employing the friction between the deforming metal and the tool. It consists of a ring-shaped channel formed by rectangular cross-section grooves on a rotating extrusion wheel and a fixed die holder, serving the role of an extrusion cylinder in conventional extrusion methods. As the extrusion wheel rotates, the friction on the groove walls continuously feeds the rod-shaped raw material, achieving continuous extrusion, refining the grain, and improving the overall mechanical properties of magnesium alloys. The principle relies on maintaining the cross-sectional dimensions of the material before and after deformation, enabling repeated shear plastic deformation within the material, resulting in an ultrafine grain structure. This method holds promise for obtaining bulk ultrafine grain materials through significant plastic deformation. The Severe Plastic Deformation (SPD) technique effectively refines grains, allowing the production of materials with submicron-sized grains. When combined with isothermal extrusion, it optimizes the geometric dimensions, surface quality, internal structure, and physical properties of the entire product, significantly enhancing productivity.

The selection of raw materials is crucial for magnesium alloy extrusion products. Externally sourced semi-continuous magnesium alloy rods require strict scrutiny for external dimensions, chemical composition, metallography, ultrasonic testing, etc.

Magnesium alloy chip cutting machine

➡️Magnesium Alloy Chips and Particles:

To meet the requirements of processes like injection thixoforming, laser forming, and 3D printing, magnesium alloys need to be processed into chips, powder, and particles.

The production of magnesium alloy chips and particles involves cutting magnesium ingots using a chip-cutting machine, followed by coarse crushing of the magnesium chips through a chip-breaking machine. A hopper collects the coarse crushed magnesium alloy chips for sieving. If the aim is to produce magnesium alloy powder or particles, further powdering and sieving processes are necessary.

Magnesium alloy particles can also be formed through atomization, ball milling, or chemical methods.