Modelling of Pulse Current Parameters and Design of Fuzzy Logic Controller for Uniform Metal Transfer in Pulsed Gas Metal Arc Welding of Aluminium Alloy. The use of aluminium alloys in automotive and aerospace industry is growing across the world. In order to improve the use of aluminium alloy in various industries, the welding process for aluminium need to be improved. The objective of this research is to develop an intelligent controller for welding power source, which is capable of selectin ....Modelling of Pulse Current Parameters and Design of Fuzzy Logic Controller for Uniform Metal Transfer in Pulsed Gas Metal Arc Welding of Aluminium Alloy. The use of aluminium alloys in automotive and aerospace industry is growing across the world. In order to improve the use of aluminium alloy in various industries, the welding process for aluminium need to be improved. The objective of this research is to develop an intelligent controller for welding power source, which is capable of selecting process parameters automatically for varying pulse conditions in welding of aluminium alloys. The fundamental understanding about development of proposed intelligent system with smart controller for uniform metal transfer will create global interest across the welding industry and will create a new market potential throughout world where use of aluminium as a base material is growing.Read moreRead less
A Novel Surface Alloying Technique to Improve the Corrosion and Wear Resistance of Magnesium Alloys. Surface mechanical attrition treatment will be used to generate nanometer-sized grains in the surface layer of engineering magnesium alloys, and therefore activate the surface of this material. Together with the use of efficient activators, the project will develop a novel low temperature surface alloying technique to significantly improve the wear and corrosion resistance of magnesium alloys wi ....A Novel Surface Alloying Technique to Improve the Corrosion and Wear Resistance of Magnesium Alloys. Surface mechanical attrition treatment will be used to generate nanometer-sized grains in the surface layer of engineering magnesium alloys, and therefore activate the surface of this material. Together with the use of efficient activators, the project will develop a novel low temperature surface alloying technique to significantly improve the wear and corrosion resistance of magnesium alloys without changing the substrate properties. Microstructural features and the wear and corrosion resistance of the ultrafine-grained surface layer will be examined. In addition, it may be possible to combine the surface alloying process with the conventional ageing process together in order to save energy.Read moreRead less
Bulk Metallic Glasses and Their Applications. Bulk Metallic Glasses (BMG) represent a significant breakthrough in amorphous metallic materials research and opens up an enormous potential for BMG as engineering materials. However, currently there is no effective way to select optimum composition. The project will bring Australia together with two leading international research groups to develop a computer model for BMG alloy design and to further optimise BMG production processes. BMG engineering ....Bulk Metallic Glasses and Their Applications. Bulk Metallic Glasses (BMG) represent a significant breakthrough in amorphous metallic materials research and opens up an enormous potential for BMG as engineering materials. However, currently there is no effective way to select optimum composition. The project will bring Australia together with two leading international research groups to develop a computer model for BMG alloy design and to further optimise BMG production processes. BMG engineering components will be produced. The project provides Australian researchers access to leading expertise and specialized facilities which will rapidly bring us to the highest level. It represents Australia's first involvement in this significant material innovation. Read moreRead less