Finite Element Simulation of the Presta Joining Process for Assembled Camshafts: Application to Aluminum Shafts

finite element simulation of chip formation process in oblique cutting of aluminum alloy

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Finite Element Simulation of Hydrostatic Extrusion Process to Produce Thin Bimetallic Parts

The hydrostatic extrusion is a new method of extrusion process. The most important advantage of this method is reduction of friction and close tolerance for the coating thickness. In this study, the hydrostatic extrusion simulation of bimetallic wires has performed using of finite element method. In the following the advantages of hydrostatic extrusion compared to the direct extrusion are prese...

Finite Element Simulation of Hydrostatic Extrusion Process to Produce Thin Bimetallic Parts

The hydrostatic extrusion is a new method of extrusion process. The most important advantage of this method is reduction of friction and close tolerance for the coating thickness. In this study, the hydrostatic extrusion simulation of bimetallic wires has performed using of finite element method. In the following the advantages of hydrostatic extrusion compared to the direct extrusion are prese...

Application of Finite Element Analysis in Sheet Material Joining

Simulation and modeling of friction welding of stainless steel to aluminum alloy using finite element method and artificial neural network

Aluminum to stainless steel joints are broadly used in industries in order to reduce fuel consumption. While fusion welding is not a suitable method to join these metals. solid state welding, like friction welding (FW), is an effective way to this process. However, risk of intermetallic compounds (IMCs) formation is probable in these welds. In previews investigations formation of FeAl3, Fe2Al5 ...