Both 3104 and 3004 are commonly used aluminum alloy coils in various applications, but there are some differences in their chemical composition and properties. The following is a comparison of 3104 aluminum coils and 3004 aluminum coils:
chemical composition:
3104 aluminum coil:
Aluminum (Al): 95.7%
Magnesium (Mg): 0.8-1.3%
Manganese (Mn): 0.8-1.3%
Zinc (Zn): 0.25%
Other elements: Trace other elements
300 ...
Aluminum alloy 1085 is a high-purity aluminum alloy with specific characteristics that make it suitable for certain applications. Here are some of the product characteristics of 1085 aluminum coil:
High Purity: Aluminum alloy 1085 is considered a high-purity aluminum alloy, with an aluminum content of at least 99.85%. This high purity contributes to its excellent electrical conductivity and corrosion resistanc ...
3003 aluminum coil is a metal product that is subjected to flying shear after being rolled and drawn by a casting and rolling machine. Widely used in electronics, packaging, construction, machinery and other industries.
3003 is an AL-Mn alloy, which is the most widely used anti-rust aluminum, so the chemical properties of 3003 alloy aluminum coil are excellent. In terms of corrosion resistance, 3003 alloy alum ...
1070 pure aluminum coil is a type of aluminum alloy that contains 99.7% aluminum and is often used in a wide range of applications due to its high electrical conductivity, excellent corrosion resistance, and good workability.
Here are some common applications of 1070 pure aluminum coil:
Electrical and electronic components: Due to its high electrical conductivity, 1070 alumin ...
The superiority of aluminum coils over copper coils depends on a variety of factors such as cost, efficiency, durability, and application. Both aluminum coils and copper coils have their own advantages and disadvantages. Which one is better depends on the use.
There are significant differences between aluminum coil and copper coil in many aspects.
Comparison between aluminum coils and copper coils
Co ...
Alloy temper
Coefficient of thermal expansion (20)μm/m.k
Melting point range(℃)
Conductivity
( %IACS )
Resistivity
Ωmm2/m
Density (g/cm3)
5052 H112
23.2
500 - 635
30
0.058
2.82
5083 H112
23.8
607 - 650
35
0.050
2.72
6061 T651
23.4
570 - 640
29
0.059
2.72
7050 T7451
23.6
580 - 650
43
0.040
2.73
7075 T651
23.5
490 - 630
41
0.0415
2.82
2024 T351
23 ...