چكيده به لاتين
Abstract:
The use of aluminum in the industry is increasing day by day and many efforts have been made to improve the properties of this metal. Making aluminum foil composites using a friction fusion process is one of the methods that improves the properties of this metal by adding ceramic or metal powders to this metal. In mixed friction process technology, the input parameters such as geometry, tool shape, tool speed, tool speed, type of welding material, material thickness, pin entry angle to workpiece, etc. are among the effective parameters in this technology. On the other hand, the need for welding in the field of welding is of high quality and strength. Since the change of the above input parameters has an effect on the amount of welding strength and quality. The achievement of high quality welds is not possible due to the multiplicity of input parameters except through the design of the test and optimization of the welding process Therefore, in this project, familiarity with the welding and alloying technology, which is one of the new methods for connecting industry's most popular metals in the field of rail and marine industries An attempt is made to optimize the boiling input parameters through a test design method such as Taguchi. This will reduce the cost of manufacturing and the frequency of laboratory tests In the present study, using the Taguchi method (designing experiments), we constructed a reinforced magnesium aluminum composite using a frictional fusion process method Finally, by applying the tensile test, we examined the effect of 3 parameters of tool geometry, speed of rotation and velocity in this type of composite
Keywords Optimization : Mixed Friction Process, Aluminum Nanocomposite, Reinforced
