Gịnị bụ 5086 aluminum sheet grade?

5086 aluminum plate is one of the 5000 usoro (5xxx series) with higher corrosion resistance. 5086 aluminum plate is rust-proof aluminum with a high content of magnesium metal. It is widely used in applications that require high corrosion resistance and good weldability. sexual and moderate intensity situations.

5086 aluminum-plates
5086 aluminum-plates

5086 aluminum sheet chemical composition

AlloyMgZnMnNkeCrFeIndividualTotal
50863.5~4.5≤0.250.20~0.7≤0.150.05~0.250.000~0.500≤0.05≤0.15

Rust-proof 5086 aluminum mpempe akwụkwọ

Aluminum-magnesium alloys and aluminum-manganese alloys are collectively called anti-rust aluminum, because the alloy components between them increase their anti-corrosion properties. Representatives of aluminum-manganese alloys are 3003 aluminum mpempe akwụkwọ, 3004 aluminum mpempe akwụkwọ, na 3105 aluminum mpempe akwụkwọ. Aluminum-magnesium alloys are aluminum sheet 5005 5252 5251 5050 5052 5754 5083 5056 5086, wdg. according to the content of magnesium alloy.

Aluminom mpempe akwụkwọ 5086 common thickness specifications

5086-H32 Aluminum Sheet 0.032
5086-H32 Aluminum Sheet 0.040
5086-H32 Aluminum Sheet 0.050
5086-H32 Aluminum Sheet 0.063
5086-H321 Aluminum Sheet 0.063
5086-H116 Aluminum Sheet 0.080
5086-H32 Aluminum Sheet 0.090
5086-H116 Aluminum Sheet 0.100
5086-H116 Aluminum Sheet 0.125
5086-H32 Aluminum Sheet 0.125
5086-H116 Aluminum Sheet 0.160
5086-H116 Aluminum Sheet 0.190
5086-H32 Aluminum Sheet 0.190
5086-H116 Aluminum Plate 0.250
5086-H116 Aluminum Plate 0.313
5086-H116 Aluminum Plate 0.375
5086-H32 Aluminum Plate 0.375
5086-H116 Aluminum Plate 0.500
5086-H32 Aluminum Plate 0.500
5086-H116 Aluminum Plate 0.625
5086-H32 Aluminum Plate 0.625
5086-H116 Aluminum Plate 0.750
5086-H116 Aluminum Plate 1.000
5086-H116 Aluminum Plate 1.250
5086-H116 Aluminum Plate 1.500
5086-H116 Aluminum Plate 2.000

5086 aluminum sheet physical properties

Njupụta: 2.66 g/cm³ (0.096 lb/in³)

Melting Point: 585°C to 655°C (1085°F to 1215°F)

Nrụpụta okpomọkụ: 125 W/(m·K) at 25°C (77°F)

Coefficient of Thermal Expansion: 23.8 x 10^-6 /°C (13.2 x 10^-6 /°F) from 20°C to 100°C (68°F to 212°F)

Specific Heat Capacity: 0.89 J/(g·°C) at 25°C (77°F)

Electrical Conductivity: 31.2% IACS (International Annealed Copper Standard) at 20°C (68°F)

Modul nke Elasticity: 68.9 GPA (10,000 ksi)

What’s the difference between aluminum sheet 5086 na 5083?

Aluminum alloys 5086 na 5083 are both marine-grade alloys known for their excellent corrosion resistance in harsh environments, especially marine applications. Agbanyeghị, there are some differences between the two, which mainly lie in their mechanical properties and composition:

ihe mejupụtara alloy:

5086 Aluminom Alloy: The main alloying element of 5086 is magnesium. It also contains small amounts of manganese, chromium and other elements.
5083 Aluminom Alloy: Like 5086, 5083 is a magnesium alloy, but it also contains large amounts of chromium and trace amounts of manganese and iron.

Strength and mechanical properties:
5086: Generally slightly lower in strength than 5083, but still has good strength and excellent corrosion resistance. It is often selected for applications where weldability and corrosion resistance are critical.

5083: Compared with 5086, it has higher tensile strength and yield strength. It is known for its exceptional strength in harsh marine environments and is commonly used in structures that require high strength, such as the shipbuilding industry.

Weldability:
Both alloys are weldable, but 5086 is generally considered easier to weld than 5083. 5086 is known for its good solderability using standard soldering methods, mgbe 5083 may require more specialized soldering techniques to maintain its mechanical properties.

application:
5086: Commonly used in applications requiring moderate strength and high corrosion resistance, such as ship hulls, storage tanks and pressure vessels.
5083: Preferred in applications where higher strength and toughness are critical, such as the construction of naval vessels, cryogenic tanks and structural components.