The paper presents some recent applications at the DIMEG lab of physical simulation techniques aimed at analysing and modelling hot forging operations. The applications concern (i) monitoring of force-and-moment history over the forging cycle of complex parts, (ii) replicating on samples local thermal/mechanical profiles that are predicted by FE codes and (iii) measuring interface parameters such as heat transfer coefficients and temperature at the die surface
The paper is focused on the investigation of life assessment of dies in hot and warm forging related...
In the traditional approach the numerical simulation of the forging process is mainly focused on the...
In high temperature metal forming techniques, analysis of the material flow and deformation as well ...
New experimental facilities have recently been developed and installed at the DIMEG Lab that are spe...
Physical simulation using model materials is an effective tecImique to investigate hot forging opera...
In the field of Hot Closed die forging by thermomechanical treatment of high sensibility métallurgic...
In hot and warm forging operations, surface layers of tools at the tool-workpiece interface are not ...
The paper deals with the numerical and experimental modelling of the different steps that can involv...
Previous analyses of material flow and temperature history during cold forging mostly referred to a ...
The objective of this research work is to study the variation of various parameters such as stress, ...
The paper deals with the coupling of the simulations of different steps in manufac- turing process c...
This work presents some progress in a research project aimed at assessing the thermal field inside a...
Research in high-precision forging required to define changes of temperature in tools during forging...
Process Simulation using FEA is routinely used in industry for optimizing forming processes and desi...
Abstract: This paper describes an investigation of the determination of the heat transfer coecient a...
The paper is focused on the investigation of life assessment of dies in hot and warm forging related...
In the traditional approach the numerical simulation of the forging process is mainly focused on the...
In high temperature metal forming techniques, analysis of the material flow and deformation as well ...
New experimental facilities have recently been developed and installed at the DIMEG Lab that are spe...
Physical simulation using model materials is an effective tecImique to investigate hot forging opera...
In the field of Hot Closed die forging by thermomechanical treatment of high sensibility métallurgic...
In hot and warm forging operations, surface layers of tools at the tool-workpiece interface are not ...
The paper deals with the numerical and experimental modelling of the different steps that can involv...
Previous analyses of material flow and temperature history during cold forging mostly referred to a ...
The objective of this research work is to study the variation of various parameters such as stress, ...
The paper deals with the coupling of the simulations of different steps in manufac- turing process c...
This work presents some progress in a research project aimed at assessing the thermal field inside a...
Research in high-precision forging required to define changes of temperature in tools during forging...
Process Simulation using FEA is routinely used in industry for optimizing forming processes and desi...
Abstract: This paper describes an investigation of the determination of the heat transfer coecient a...
The paper is focused on the investigation of life assessment of dies in hot and warm forging related...
In the traditional approach the numerical simulation of the forging process is mainly focused on the...
In high temperature metal forming techniques, analysis of the material flow and deformation as well ...