The effect of extrusion speed on the structure and corrosion properties of aged and non-aged 6063 aluminum alloy

• Published in: Materials chemistry and physics Vol. 130; no. 3; pp. 1357 - 1360
• Main Authors: Aytaç, A., Daşçılar, B., Usta, M.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.11.2011
• Subjects: A. Alloys; Aluminum base alloys; Billets; C. Corrosion test; C. Electrochemical techniques; C. Hardness; Corrosion; Corrosion effects; Corrosion rate; Corrosion resistance; Extrusion; Extrusion rate; C. Electrochemical techniques; C. Corrosion test; A. Alloys; C. Hardness
• ISSN: 0254-0584; 1879-3312
• DOI: 10.1016/j.matchemphys.2011.09.029

► AA6063 billets were extruded at different extrusion rates and then aged. ► The extruded samples were studied for corrosion, and mechanical properties. ► The effect of extrusion speed and aging on corrosion of AA6063 was investigated. ► The result showed that decreased extrusion rate improved the corrosion resistance. ► The aging improved the corrosion resistance of aluminum in 0.5 NaCl environments. Extrusion is used in processing of Al alloy for consolidation, redistribution of reinforcements, and shape forming. The important parameter that controls the extrusion process is extrusion rate, which is a function of extrusion equipment and parameters. Homogenized AA6063 alloy billets were extruded at different ram speeds related to extrusion speed (3, 6, 10 mm s −1) and then aged at 185 °C for 6 h. The extruded samples were studied for their corrosion, microstructure, and mechanical properties. The effects of extrusion speed and aging on the corrosion behavior of AA6063 were investigated using dynamic polarization and impedance techniques in 0.5 M NaCl aqueous solution. The surface structures were then characterized by means of surface profilometer. The electrochemical measurements showed that the decreasing ram speed for the aged sample improved the corrosion resistance. In addition, the aging improved the corrosion resistance of aluminum in 0.5 NaCl environments.