International audienceForming process simulations require a precise knowledge of the input material parameters. These parameters are usually estimated from mechanical tests. The classical analysis of these tests are usually based on a few assumptions: material flow homogeneity, isothermal conditions, etc. But in some cases with strain localisation or self-heating, these assumptions overestimate material strength. Analysis techniques using inverse methods are then good alternatives. This paper deals with the estimation of mechanical parameters using an inverse method. The direct model is a 3D forming process simulation software (FORGE3®). The numerical formulation is based on a mixed finite element method using two unknowns, the velocity and...
The rapid development of computing technology has made powerful tools, such as finite element codes,...
The finite element modelling of manufacturing processes often requires a large amount of large plast...
This paper describes a numerical inverse method to extract material strength parameters from the exp...
International audienceAn inverse method is developed in order to estimate constitutive parameters of...
Numerical simulations of forming processes require a good knowledge of the constitutive parameters o...
International audienceThe starting point of this work is the need of precise and correct input data ...
The development of full-field measurement techniques paved the way for the design of new mechanical ...
International audienceSensitivity matrix evaluation in gradient method for inverse analysis is a maj...
Formulating the complete description of a material behavior includes finding the numerical values of...
The aim of this work is the developement of an automatic parameter identification method coupled wit...
ii The accuracy of process simulation in metal forming by finite element method depends on the accur...
In this contribution, inverse identification methods of constitutive laws for elastoplastic behaviou...
AbstractRealistic simulations of machining processes require a correct description of the material b...
Due to the cost and the complexity of real mechanical tests, simulation softwares are often used by ...
peer reviewedInverse methods offer a powerful tool for the determination of the elasto-plastic mater...
The rapid development of computing technology has made powerful tools, such as finite element codes,...
The finite element modelling of manufacturing processes often requires a large amount of large plast...
This paper describes a numerical inverse method to extract material strength parameters from the exp...
International audienceAn inverse method is developed in order to estimate constitutive parameters of...
Numerical simulations of forming processes require a good knowledge of the constitutive parameters o...
International audienceThe starting point of this work is the need of precise and correct input data ...
The development of full-field measurement techniques paved the way for the design of new mechanical ...
International audienceSensitivity matrix evaluation in gradient method for inverse analysis is a maj...
Formulating the complete description of a material behavior includes finding the numerical values of...
The aim of this work is the developement of an automatic parameter identification method coupled wit...
ii The accuracy of process simulation in metal forming by finite element method depends on the accur...
In this contribution, inverse identification methods of constitutive laws for elastoplastic behaviou...
AbstractRealistic simulations of machining processes require a correct description of the material b...
Due to the cost and the complexity of real mechanical tests, simulation softwares are often used by ...
peer reviewedInverse methods offer a powerful tool for the determination of the elasto-plastic mater...
The rapid development of computing technology has made powerful tools, such as finite element codes,...
The finite element modelling of manufacturing processes often requires a large amount of large plast...
This paper describes a numerical inverse method to extract material strength parameters from the exp...