A location of shrinkage porosity is accurately predicted through significant correlations between numerical simulation of mould filling and casting solidification behaviour. Results showed a significant confidence in the ability of casting numerical simulation to predict porosity. The numerical result is validated through comparisons with observations made on experimental casting. The numerical simulation replicated the actual condition of parameter setting on the die casting machine, mould’s gating, runner, air vents and cooling design. This paper presents some numerical simulations which analyzed the filling flow of molten metal, metal solidification behavior and porosity prediction through changes during the heat transfer process from liquid form to solid form using a 3-D computer numerical simulation. Trial and error experiments are time consuming and costly which eventually leads to high rate of rejection. However, the control of casting defects has been based on the experience of die casting engineers and trial and error experiments. ![]() The die casting defects that are caused by molten metal during mould filling include gas porosity, shrinkage porosity and air entrapment. ![]() This paper presents a research study conducted in a local automotive component manufacturer that produces aluminium alloy of Power Steering Column and Dynamic Variable Valve Timing (DVVTs) for local and global markets.
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