6061-O lembaran aluminium VS 6061-T6 lembaran aluminium

Apa prabédan antarane 6061-O lan 6061-T6 sheet aluminium?

6061-O aluminum sheet and 6061-T6 aluminum sheet are two common specifications of aluminum sheets in the 6000 seri 6061. Dheweke duwe ciri sing luwih apik. Apa prabédan antarane 6061-O lan 6061-T6 sheets aluminium? Bentenane utama antarane piring aluminium 6061-O lan 6061-T6 yaiku sifat mekanike, especially strength and hardness, which are affected by the tempering process.

6061-O aluminum plate:

Temper: O (annealed)

Mechanical behavior:
Kekuwatan Tensile: Typically approximately 124 MPa (18 ksi)
Kekuwatan Ngasilake: Typically approximately 55 MPa (8 ksi)
Elongation: usually around 25%
Kekerasan: lower
Formability: Excellent formability due to its softness. It can be molded, bent, and molded easily without cracking or weakening.

Typical uses:
Typically used in applications where high strength is not a critical requirement but formability and corrosion resistance are critical.
Ideal for applications requiring deep drawing or forming processes such as automotive parts, cans and kitchenware.

6061-T6 aluminum plate:

Condition: T6 (solution heat treatment and artificial aging)
Mechanical behavior:
Kekuwatan Tensile: Typically approximately 310 MPa (45 ksi)
Kekuwatan Ngasilake: Typically approximately 275 MPa (40 ksi)
Elongation: usually around 12%
Kekerasan: Harder compared to 6061-O due to precipitation hardening process.
Formability: Although still formable, 6061-T6 is less ductile than 6061-O due to increased strength and hardness. It may require more force to bend or form.

Typical uses:
Structural applications requiring high strength and good corrosion resistance, such as aerospace components, bicycle frames and structural components in construction.
Machined components requiring high strength and excellent machining properties.

Comparison Table:

Properti6061-O Aluminum Sheet6061-T6 Aluminum Sheet
Kekuwatan TensileTypically around 124 MPa (18 ksi)Typically around 310 MPa (45 ksi)
Kekuwatan NgasilakeTypically around 55 MPa (8 ksi)Typically around 275 MPa (40 ksi)
ElongationTypically around 25%Typically around 12%
KekerasanRelatively lowHigher
FormabilityBangetFormable, but less malleable
Typical UsesDeep drawing, forming processesStructural applications, machined components