The aim of this paper is to study the simulation of cogging process using a thermo-mechanical partitioned algorithm. The thermal and mechanical problems are solved separately. The mechanical problem is based on the balance equation whereas the thermal problem is based on the heat equation. The two physics are coupled trough the mechanical parameters that depends on the thermal problem and vice versa. The results obtained using the software Forge3 show that the mechanical deformation is high inside the zone of deformation and negligible outside whereas the temperature is high overall the mesh with a gradient at the zone of contact between the dies and the work piece
The effect of temperature is significant on both the die and the workpiece in metal forming processe...
peer reviewedThis paper deals with an industrial application of a coupling procedure involving two ...
International audienceAn efficient simulation of thermal and mechanical models involved in thermoset...
The aim of this paper is to study the simulation of cogging process using a thermo-mechanical partit...
International audienceAmong forging processes, incremental processes are those where the work piece ...
A formulation for elastic-plastic constitutive equations is given based on principles of continuum t...
International audienceA Multi-Mesh Multi-Physics (MMMP) method is developed to reduce the very long ...
In the field of Hot Closed die forging by thermomechanical treatment of high sensibility métallurgic...
The hot deformation behavior of Waspaloy alloy has been investigated by two-pass hot cogging process...
International audienceThe thermomechanical finite element analysis of warm forming processes enables...
A computational thermo-mechanical model has been developed to simulate the continuous casting of sha...
The objective of this research work is to study the variation of various parameters such as stress, ...
The objective of this thesis is to develop and evaluate numerical methods for modelling and simulati...
Today incremental bulk metal forming is applied in various industrial manufacturing processes. With ...
A computational thermo-mechanical model has been developed to simulate the continuous casting of sha...
The effect of temperature is significant on both the die and the workpiece in metal forming processe...
peer reviewedThis paper deals with an industrial application of a coupling procedure involving two ...
International audienceAn efficient simulation of thermal and mechanical models involved in thermoset...
The aim of this paper is to study the simulation of cogging process using a thermo-mechanical partit...
International audienceAmong forging processes, incremental processes are those where the work piece ...
A formulation for elastic-plastic constitutive equations is given based on principles of continuum t...
International audienceA Multi-Mesh Multi-Physics (MMMP) method is developed to reduce the very long ...
In the field of Hot Closed die forging by thermomechanical treatment of high sensibility métallurgic...
The hot deformation behavior of Waspaloy alloy has been investigated by two-pass hot cogging process...
International audienceThe thermomechanical finite element analysis of warm forming processes enables...
A computational thermo-mechanical model has been developed to simulate the continuous casting of sha...
The objective of this research work is to study the variation of various parameters such as stress, ...
The objective of this thesis is to develop and evaluate numerical methods for modelling and simulati...
Today incremental bulk metal forming is applied in various industrial manufacturing processes. With ...
A computational thermo-mechanical model has been developed to simulate the continuous casting of sha...
The effect of temperature is significant on both the die and the workpiece in metal forming processe...
peer reviewedThis paper deals with an industrial application of a coupling procedure involving two ...
International audienceAn efficient simulation of thermal and mechanical models involved in thermoset...