Wrought aluminium alloys are prone to hot tearing when cast into near-net shapes. This problem can be overcome by the novel casting technique of rheo-processing combined with high pressure die casting. An industrial engine mounting bracket is produced by rheo-process commercial 7075 with the patented CSIR-RCS and subsequent high pressure die casting. Section thickness changes and constraining geometry make this a difficult component to rheocast. X-ray radiography is used to evaluate hot tearing over the component and is correlated to piston injection shot profile velocities. Gross hot tearing is significantly reduced by a higher injection velocity but turbulent flow entraps air. Faster injection allows more time for flow before final solidification.
Reference:
Curle, U.A. 2011. Rheocasting an engine mounting bracket in commercial 7075. In: Light Metals Technology V, the 5th International Conference on Light Metals Technology, July 19-22, 2011, Luneburg, Germany
Curle, U. (2011). Rheocasting an engine mounting bracket in commercial 7075. Materials Science and Manufacturing. http://hdl.handle.net/10204/6800
Curle, UA. "Rheocasting an engine mounting bracket in commercial 7075." (2011): http://hdl.handle.net/10204/6800
Curle U, Rheocasting an engine mounting bracket in commercial 7075; Materials Science and Manufacturing; 2011. http://hdl.handle.net/10204/6800 .
Light Metals Technology V, the 5th International Conference on Light Metals Technology, July 19-22, 2011, Luneburg, Germany. Published in Materials Science and Manufacturing
