Aluminium Alloy 5052 Chemical Composition, Grade, Table and PDF Online

Aluminium Alloy 5052 is a non-heat treating alloy having remarkable corrosion resistance -especially it is in the habit of seawater atmosphere. It is made out of aluminum primarily with significant proportions of magnesium and chromium. Aluminum comprises mainly 97.9% of its chemical composition with 2.2% magnesium and 0.25% chromium. It provides good ductility and weld-ability and is well-suited for diverse uses including marine structures, shafts, and architectural items. The classification of this grade conforms to the aluminum alloy nomenclature specified by the Aluminum Association. The suffix 52 represents this particular alloy. Though there are different online locations you can get the tables, chart and PDF formats of 5052 Aluminium Alloy in details, it is imperative to first ascertain that the source is genuine and reliable before the use in any application.

Aluminium Alloy 5052 Chemical Composition And Grade Table

Aluminium alloy 5052 is a non-hardenable alloy belonging to a group, which is considered outstanding in resisting the corrosion, and the corrosion resistance is especially high in marine areas. It has chekma alloy, mainly of aluminum, where magnesium and chromium are the main alloying elements. This particular alloy of Aluminum has, by and large, an .025% magnesium, .0125% chromium content and with little amounts of iron and silicon. Grade 5052 has outstanding shapeability and weldability that can be useful for various industrial fields from marine, transportation, and building constructs where it is required to be impermeable and strong.

Aluminium Alloy 5052 Composition Table
Elements Aluminum, Al Magnesium, Mg Chromium, Cr
Min (%) - - -
Max (%) 97.2 2.5 0.25

Advantages and Disadvantages of Aluminium Alloy 5052

    Advantages:

  • High Fatigue Strength: Good fatigue resistance for applications under repeated stress.

  • Corrosion Resistance: High resistance to corrosion in marine and industrial environments.

  • Formability: Versatile for forming into various shapes and patterns.

  • Weldability: Exhibits very good weldability with fusion and resistance welding methods.

    Disadvantages:

  • Low Hardness: Less hard compared to some other aluminium alloys.

  • Ductility: High ductility can lead to deformation under high loads.

  • Surface Finish: Surface may show processing imprints that require smoothing.

  • Strength: Moderate strength may limit applications in demanding tasks.

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