5052 Aluminum Sheet, Unpolished (Mill) Finish, H32 Temper, ASTM B209/AMS QQ-A 250/8, 1/8' Thickness, 12' Width, 12' Length 1/8 Thickness 12 Width 12 Length

  • 5052 Aluminum Sheet, Unpolished (Mill) Finish, H32 Temper, ASTM B209/AMS QQ-A 250/8, 1/8' Thickness, 12' Width, 12' Length 1/8 Thickness 12 Width 12 Length
  • 5052 Aluminum Sheet, Unpolished (Mill) Finish, H32 Temper, ASTM B209/AMS QQ-A 250/8, 1/8' Thickness, 12' Width, 12' Length 1/8 Thickness 12 Width 12 Length
  • 5052 Aluminum Sheet, Unpolished (Mill) Finish, H32 Temper, ASTM B209/AMS QQ-A 250/8, 1/8' Thickness, 12' Width, 12' Length 1/8 Thickness 12 Width 12 Length
CA $29.24


Details

  • 5052 aluminum provides excellent corrosion resistance, even in salt water, and is stronger than 1100 or 3003 aluminum
  • Meets ASTM B209 and AMS-QQ-A-250/8 specifications
  • Unpolished (mill) surface has no finish
  • H32 temper has been strain hardened to a 1/4 hard temper and thermally stabilized
  • Standard tolerance

The 5052 aluminum sheet with H2 temper has an unpolished (mill) surface, and meets American Society for Testing and Materials International ASTM B209 and SAE Aerospace Material Specifications AMS-QQ-A-250/8 standards. The 5052 aluminum alloy provides excellent corrosion resistance, even in salt water, and is stronger than 00 or 00 aluminum. It is not heat treatable. The aluminum has an H2 temper, meaning it has been strain hardened to a /4 hard temper and thermally stabilized. and aluminum alloys are lightweight compared to steel, brass, and copper, and have high strength-to-weight ratios. They offer good corrosion resistance and conductivity of heat and electricity, as well as moderate formability and machinability.  alloys include elements that modify the aluminum to achieve specific properties such as better weldability or greater strength. All series of aluminum alloys are nonmagnetic. alloys have temper designations, indicating that the material has undergone a process to achieve certain properties of strength and hardness.Tensile strength, used to indicate the material’s overall strength, is the peak stress it can withstand before it breaks. Corrosion resistance describes the material's ability to prevent deterioration caused by atmosphere, moisture, or other medium. Wear resistance indicates the ability to prevent surface damage caused by contact with other surfaces. Toughness describes the material's ability to absorb energy before breaking, while hardness (commonly measured as indentation hardness) describes its resistance to permanent surface deformation. Formability indicates how easily the material can be permanently shaped. Machinability describes how easily it can be cut, shaped, finished, or otherwise machined, while weldability characterizes the ability to be welded.


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