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Tensile, Hardness, and Torsion Behavior of Welded AA

Tensile, Torsion, and Hardness behavior of welded and un-welded Aluminium Alloy 6061 T6 were investigated. Tests were conducted to evaluate the impact of tungsten Gas Arc welding (TIG) on some of the mechanical properties of the alloy. Different zones with different mechanical properties were created as a result of the welding process. Welding was found to have enormous impact on the tensile, torsion, and hardness properties of the alloy. Welded tensile specimens were failed at the welded area whereas not welded ones were failed at the centre. Welded torsion specimens were failed at the HAZ but not welded ones failed at the centre. The hardness of HAZ was decreased as a result of the heat generated during the welding process. Hardness values were increased as we moved away from the welded region.

Trans Tech Publications, Ltd.

E. Eltai Elsadig Mahdi

Applied Mechanics and Materials

2014

Title: Tensile, Hardness, and Torsion Behavior of Welded AA

Description:

Tensile, Torsion, and Hardness behavior of welded and un-welded Aluminium Alloy 6061 T6 were investigated.

Tests were conducted to evaluate the impact of tungsten Gas Arc welding (TIG) on some of the mechanical properties of the alloy.

Different zones with different mechanical properties were created as a result of the welding process.

Welding was found to have enormous impact on the tensile, torsion, and hardness properties of the alloy.

Welded tensile specimens were failed at the welded area whereas not welded ones were failed at the centre.

Welded torsion specimens were failed at the HAZ but not welded ones failed at the centre.

The hardness of HAZ was decreased as a result of the heat generated during the welding process.

Hardness values were increased as we moved away from the welded region.

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Tensile, Hardness, and Torsion Behavior of Welded AA

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