Author/Authors :
Alias, Juliawati Structural Materials and Degradation - Faculty of Mechanical Engineering - Universiti Malaysia Pahang - Pekan - Pahang, Malaysia , Mohamed, Nurul Shuhada Structural Materials and Degradation - Faculty of Mechanical Engineering - Universiti Malaysia Pahang - Pekan - Pahang, Malaysia , Ishak, Mahadzir Manufacturing Focus Group - Faculty of Mechanical Engineering - Universiti Malaysia Pahang - Pekan - Pahang, Malaysia , Zhou, Xiorong School of Materials - The University of Manchester - M13 9PL,UK , Thompson, George E School of Materials - The University of Manchester - M13 9PL,UK
Abstract :
The influence of the hot forming process of AZ31B wrought and twin roll cast (TRC) magnesium alloy sheets on the microstructure and corrosion behaviour have been evaluated. The corrosion behaviour was investigated by hydrogen evolution experiments in chloride-containing solution. Filiform-like corrosion was predominant attack to the AZ31 magnesium alloys, as observed by in-situ corrosion observation. The intermetallic particle existence and grain structure significantly influenced the corrosion rate. The dendritic structure of the as-cast TRC alloy was severely attacked, revealing that the as-cast alloy was highly susceptible to corrosion. The presence of twins in wrought alloy was found to act as a corrosion barrier, while the increase in grain size showed the high corrosion rate of the alloy.
Keywords :
Corrosion barrier , Magnesium Alloys , Corrosion Behaviour , Microstructure , Hot Forming
