5456 aluminum alloy is a forged aluminum-magnesium alloy known for its excellent weldability and stability. We offer sheet materials, plate materials, and custom extrusions that meet ASTM B928 and B209 standards.
Mar. 28, 2025
5049 H24 and 5754-H24 are both aluminum alloys, belonging to the H24 temper, which means they have undergone strain hardening and partial annealing treatment, with their mechanical properties falling between the annealed (O) and full hard (H28) states.
Feb. 08, 2025
5754-H14 aluminum and 5754-H22 aluminum are both made from the same 5754 alloy, but they undergo different processing treatments, resulting in significant differences in mechanical properties and applications.
Feb. 08, 2025
5754-H22 aluminum and 5754-H32 aluminum are different tempers of the same alloy, with the main difference being their treatment methods and corresponding strength and fatigue strength.
Feb. 08, 2025
5754-H28 aluminum has the highest strength and hardness, suitable for high-load structures, while 5754-O aluminum offers the best ductility and formability, making it ideal for deep drawing and complex processing.
Feb. 08, 2025
5059-H116 and 5059-H321 are two different conditions of 5059 aluminum alloy, each with different processing techniques and performance characteristics.
Jan. 25, 2025
5059 aluminum alloy and 5083 aluminum alloy are two commonly used materials in shipbuilding and marine engineering. While they share many similarities, there are also significant differences between them.
Jan. 25, 2025
5059-H111 aluminum and 5059-H116 aluminum are different heat treatment conditions of 5059 aluminum alloy, with the main difference lying in the processing and strengthening of their mechanical properties.
Jan. 25, 2025
5383 O Aluminum and 5456-O Aluminum are both annealed (O state) versions of aluminum alloys. Their alloy compositions are almost identical, but there are differences in certain mechanical properties and thermal performance.
Jan. 17, 2025
5383 H32 and 5456-H32 are both aluminum alloys in the H32 temper, characterized by stability after strain hardening. The strength of this temper is between the annealed (O) state and the fully hardened (H38) state, roughly one-quarter of the strength of the fully hardened alloy.
Jan. 17, 2025
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