Shock Absorp Cutting Magnesium Alloy Sheet High Intensity Die Casting Textile Machine

Description

1. AZ91D belongs to the cast magnesium alloy category, which mainly relies on the method of machining after casting by pressure mold, and the appearance can be changed by electrophoresis and other surface methods.

2. AZ31B magnesium alloy belongs to deformed magnesium alloy. Casting magnesium alloy AZ31B, with, is an ideal material for manufacturing airplane wheel hubs.

3. AZ41 magnesium alloy has electrical conductivity and thermal conductivity and easy to weld after aging treatment, the hardness, strength.

Advantages

• the lightest metal structure material in the industrial application
• a specific strength and specific stiffness
• dimensional stability, cushioning properties and thermal properties
• recycled and are environmentally friendly

Compare

Magnesium alloy is a lightweight material that can meet the needs of various industries and has a promising development prospect. Compared with aluminum and steel, magnesium alloy material has the following characteristics:

(1) Magnesium alloy has a density of only 1700kg/m3, which is 2/3 that of aluminum alloy and 1/4 that of steel. Therefore, magnesium alloy is suitable for the lightweight structural parts.

(2) The specific strength and stiffness of magnesium alloy are higher than those of aluminum alloy and steel. On the premise of not reducing the strength of parts, the mass of magnesium alloy parts is much lighter than that of aluminum alloy or steel. Besides, the stiffness of magnesium alloy increases with the increase of thickness as a cubic ratio.

(3) The heat transfer and thermal expansion coefficient of magnesium alloy are large, and the elastic modulus is the lowest among common metals.

Application

Magnesium alloy is widely used in national defense and aerospace products due to its light weight. Its applications include aircraft fuselage and its engine, landing wheel, rocket, missile and its launching frame, satellite detector, rotary compass, electromagnetic cover, radar and electronic devices, ground control devices, etc.

History

Magnesium alloy has been used in aviation and aerospace earlier, and also in weapons. It was first used in military industry in 1916, and was used to manufacture 77mm shell lead.

After using magnesium alloy, spaceship and satellite components can adapt to the special environment of space operation, such as temperature limit caused by aerodynamic heating, ozone erosion, short wave electromagnetic radiation and impact of high-energy particles (electrons, protons and small meteorites).