Ikkalasi ham 3104 va 3004 ko'pincha turli xil ilovalarda alyuminiy qotishma rulonlari ishlatiladi, ammo ularning kimyoviy tarkibi va xossalarida ba'zi farqlar mavjud. Quyida taqqoslash keltirilgan 3104 alyuminiy rulonlari va 3004 alyuminiy rulonlari:
kimyoviy tarkibi:
3104 alyuminiy lasan:
alyuminiy (Al): 95.7%
Magniy (Mg): 0.8-1.3%
Marganets (Mn): 0.8-1.3%
Sink (Zn): 0.25%
Boshqa elementlar: Boshqa elementlarni kuzatib boring
3004 alyuminiy lasan:
alyuminiy (Al): 95.8-98.2%
Magniy (Mg): 0.8-1.3%
Marganets (Mn): 1.0-1.5%
Temir (Fe): 0.7%
Boshqa elementlar: Boshqa elementlarni kuzatib boring
Manganese content:
One of the main differences between these two alloys is the manganese content. Compared with 3104 alyuminiy, 3004 aluminum has a slightly higher manganese content. This difference affects the mechanical properties and formability of the alloy.
Shakllanuvchanlik:
3004 alyuminiy is known for its excellent formability. It is typically used in applications that require deep drawing or forming, such as beverage cans.
3104 alyuminiy also has good formability, but may have slightly different properties in terms of stretchability and deformation behavior due to its lower manganese content.
Korroziyaga qarshilik:
Both alloys have good corrosion resistance. They are suitable for applications where exposure to moisture and environmental factors is a consideration.
Ilova:
3104 alyuminiy lasan:
Commonly used in the production of beverage can lids, shallow-drawn cans and automotive parts.
3004 alyuminiy lasan:
Widely used in the manufacture of beverage cans (tanks) as it provides excellent formability and corrosion resistance for this application.
Kuch:
Both alloys have similar strength properties, but a slight difference in manganese content affects their mechanical properties. Specific strength values may depend on factors such as tempering and processing.
Payvandlash qobiliyati:
Both alloys can be welded using common methods such as TIG or MIG welding and exhibit good weldability.
Although 3104 va 3004 aluminum coils have some similarities in their aluminum-magnesium-manganese alloy composition, they differ in their manganese content and are generally used in different applications. Due to its excellent formability, 3004 is often the material of choice for beverage can bodies, esa 3104 is used in applications such as can ends and automotive parts. The choice between them depends on the specific requirements of the application.