Magnesium Stamping Die

The production of magnesium stamping die is carried out by stamping on a regular press, which mainly includes the preparation of metal plates during the magnesium alloy stamping process.

magnesium stamping die

Magnesium Stamping Die

The material and structure of magnesium stamping die have special requirements, which is an industrial product. Magnesium stamping die has many characteristics, such as high quality, homogeneity, and high production efficiency. 

Processing Technology of Magnesium Stamping Die:

  • Punching and Cutting

  • Forming

  • Bend

  • Wire Drawing

Magnesium Stamping Die Capabilities

The processing technology of magnesium stamping die will mainly be applied to aircraft and automobiles.

·

US

Metric

Magnesium

68.9in.x 27.6 in.x17.7in.

1750mmx700mm x450mm

*The process of selecting a magnesium stamping die may vary depending on the processing requirements.

Play Video about Magnesium Stamping Die

Magnesium Stamping Die Material

The material of the magnesium stamping die is magnesium alloy, which is mainly a material made by mixing magnesium and other materials according to specified requirements.

Material

  • Magnesium

The Advantages of Magnesium Stamping Die

Magnesium stamping dies offer a compelling combination of affordability, efficiency, lightweight handling, detailed output, versatility, and environmental sustainability.

Advantage:

  • Good thermal conductivity
  • Lightweight
  • Good thermal conductivity
  • High strength
magnesium stamping die

Application of Magnesium Stamping Die

Magnesium stamping die is widely used in various industries, including automotive, electronic products, aerospace, and activity equipment.

magnesium stamping die

Guidelines for Magnesium Stamping Die

The manufacturing of these magnesium stamping die is suitable for large-scale production of specified shaped components. 

Magnesium Stamping Die

Magnesium Stamping Die

The production of magnesium stamping die is carried out by stamping on a regular press, which mainly includes the preparation of metal plates during the magnesium alloy stamping process, the temperature of the magnesium stamping die and plate, the process of magnesium stamping die, and the speed of stamping deformation. Magnesium stamping die can be used to complete stamping manufacturing on ordinary presses. In the process of manufacturing and production, to avoid the problem of cracking defects during the deep drawing production of magnesium stamping molds, technical personnel must correctly and reasonably choose the main factors such as magnesium stamping mold temperature and raw materials.

magnesium stamping die

The Widespread Application of Magnesium Stamping Die

The material of the magnesium stamping die is magnesium alloy, which is mainly a material made by mixing magnesium and other materials according to specified requirements. Magnesium alloys have many advantages, mainly including:

1.Good Processing Performance

Magnesium alloy has good plasticity and processability, making it easy to machine into various shapes and sizes of components. Complex-shaped components can be manufactured through methods such as die casting, forging, and extrusion.

2.Lightweight

Magnesium alloy has a low density, about 2/3 of aluminum and 1/4 of steel, so it has a good lightweight effect. Widely used in aerospace, automotive, motorcycle, and other fields, it can reduce weight and improve fuel efficiency.

3.Good Thermal Conductivity

Magnesium alloy has good thermal conductivity, which can quickly conduct heat, making it have good heat resistance under high-temperature conditions. Therefore, it is widely used in high-temperature working environments such as aviation engines and automotive engines.

4.High Strength

Although magnesium alloy has low density, its strength can still reach a certain level. Compared with other metal materials, magnesium alloy has a higher specific strength, better rigidity, and impact resistance, and is suitable for manufacturing high-strength components.

5.Good Corrosion Resistance

Magnesium alloy has good corrosion resistance and can resist the erosion of the atmosphere, water, and many chemical media. In marine engineering, aerospace, and other fields, magnesium alloys are commonly used to manufacture components with high corrosion resistance requirements.

There are many industries in which magnesium alloys are applied, mainly including:

1.Medical Devices

Magnesium alloy has the characteristic of good biocompatibility and will not cause allergic or toxic reactions, so it is widely used in the manufacturing of medical devices. Such as artificial bones, implants, etc.

2.Aerospace Field

Magnesium stamping die has played a major role in the aerospace field. This material has the characteristics of lightweight, high strength, and corrosion resistance. Mainly manufacturing structural components, engine components, aviation instruments, etc. for aircraft and spacecraft.

3.Sports Equipment

The advantage of this material is to improve the performance of sports equipment and reduce the burden on athletes. Magnesium alloy is widely used in the manufacturing of sports equipment such as bicycles, golf clubs, and skateboards due to its lightweight and high strength.

4.Automotive Industry

Magnesium alloy can be used in multiple parts of automotive manufacturing, such as engines, chassis, body, etc. Due to the lightweight of magnesium alloy, it can reduce the overall weight of the car, and improve fuel economy and driving performance.

5.Electronic Products

Due to the excellent conductivity and heat dissipation properties of magnesium alloys, they are commonly used in the manufacturing of components such as shells and heat sinks in electronic products. For example, laptops, tablets, phones, etc.

There are many advantages to magnesium alloy stamping die, such as high stiffness, good thermal conductivity, good processing technology, and lightweight. Magnesium alloy stamping dies are widely used in various industries, including automotive, electronic products, aerospace, and activity equipment.

The Categories of Magnesium Stamping Die

1.Classification Based on Process Properties

1.Riveting mold: Connect or overlap parts in sequence to form a whole.

2.Blanking die: Separation of materials along closed or open contour lines, such as cutting die, punching die, cutting die, etc.

3.Forming mold: The blank or semi-finished product is directly copied into the shape of a magnesium alloy stamping mold, and the material only produces local plastic deformation, such as bulging molds, necking molds, etc.

4.Bending die: causes the blank of the sheet metal to undergo bending deformation along a straight line or bending curve, obtaining a certain angle and shape, such as a regular bending die, curling die, etc.

5.Drawing die: The blank of the sheet metal is made into an open hollow part, or the shape and size of the hollow part are changed.

2.Classification Based on the Degree of Process Combination

1.Transfer mode: Utilizing a robotic arm transfer system to achieve rapid transfer of products within the mold and improve efficiency.

2.Single process mold: Only one stamping process is completed in one stroke.

3.Composite mold: Two or more processes are completed at the same workstation in one stroke.

4.Progressive mold (continuous mold): With two or more workstations, two or more processes are completed sequentially.

3.Classification Based on Processing Methods

1.Compression mold: Using pressure to make metal blanks flow and deform into shape, such as extrusion molds.

2.Punching and shearing mold: completes work through shearing action, such as cutting mold, cutting mold, etc.

3.Bending mold: Bend the flat rough embryo into a certain angle and shape.

4.Drawing mold: Make a flat rough embryo into a seamless container with a bottom.

5.Forming mold: Changing the shape of the rough embryo through local deformation, such as convex forming molds.

The above method mainly classifies magnesium alloy stamping molds. Due to different processing requirements, technicians need to choose the correct processing method.

Maintenance Methods for Magnesium Stamping Die

The manufacturing of automotive stamping parts is an important component of automotive manufacturing. Controlling the quality of magnesium alloy stamping die technology is beneficial for improving the overall quality of automotive manufacturing. The magnesium alloy stamping dies process is a metal processing method that uses stamping equipment and molds to apply pressure to the metal sheet, causing plastic deformation and separation of the metal sheet, thereby obtaining the designed stamped parts. The process of automotive hardware stamping parts has an important impact on the overall project schedule. Strict control should be exercised during the process to minimize stamping failure rates and improve the quality of stamping parts. The automotive stamping process is beneficial for improving the performance of process products, shortening the processing and manufacturing cycle, saving processing and manufacturing costs, and is of great significance for improving enterprise efficiency and social economy. The automotive stamping process is beneficial for improving the quality and user experience of automobiles and can bring new business opportunities to China’s automotive industry. Designing new and reasonable automotive stamping processes plays a driving role in improving the performance and quality requirements of automobiles, which is of great significance for the development of the automotive manufacturing industry.

Inspection methods and maintenance of magnesium stamping die by technical personnel during installation:

Before installing the mold, the upper and lower surfaces of the magnesium stamping mold should be cleaned, and the installation surface of the mold should be correctly matched with the working surface of the press. 

After installing the magnesium alloy stamping mold, open the magnesium stamping die, guide the mold mechanism, and clean the surface of the mold cavity to ensure the quality of the parts.

Lubricate or apply lubricating grease to the sliding parts of the magnesium stamping die.

Inspect and maintain the side guard board, and clean the punching waste channel and holes.

Check the mold side pins, screws, and other components, and if any problems are found, update and replace them promptly.

 Maintenance methods during manufacturing:

Regularly apply oil lubrication to the pressing ring, rounded corners, trimming die blade, and flanging blade of the drawing die.

Regularly clean the waste channel of the small holes in the trimming and punching die.

Regularly observe and feel the usage status of the magnesium stamping die during production. If any abnormalities are found, stop the machine immediately for inspection and promptly eliminate them. After troubleshooting, proceed with production.

Maintenance methods for magnesium stamping die after manufacturing:

Inspection of magnesium stamping die is required after production is completed.

Clean the magnesium stamping mold, clean up the waste and debris inside the magnesium stamping mold, and ensure that there is no waste in the waste box.

Provide truthful feedback on the issues discovered during the use of the magnesium stamping die, and record them in the handover form or notify repair personnel to carry out repairs.

The material and structure of magnesium stamping die have special requirements, which is an industrial product. Magnesium stamping die has many characteristics, such as high quality, homogeneity, and high production efficiency. The manufacturing of the magnesium stamping die is suitable for large-scale production of specified shaped components. The processing technology of magnesium stamping die will mainly be applied to aircraft and automobiles.

 

CONTACT

Get In Touch