A severe obstacle for the routine use of crystal plasticity models is the effort associated with determining their constitutive parameters. Obtaining these parameters usually requires time-consuming micromechanical tests that allow probing of individual grains. In this study, a novel, computationally efficient, and fully automated approach is introduced which allows the identification of constitutive parameters from macroscopic tests. The approach presented here uses the response surface methodology together with a genetic algorithm to determine an optimal set of parameters. It is especially suited for complex models with a large number of parameters. The proposed approach also helps to develop a quantitative and thorough understanding of t...
Micromechanical modeling of material behavior has become an accepted approach to describe the macros...
Lightweight materials such as Aluminum are prevalent in aerospace and automotive vehicles, but the u...
OAK-135 Development and validation of constitutive models for polycrystalline materials subjected to...
A severe obstacle for the routine use of crystal plasticity models is the effort associated with det...
Physics-based crystal plasticity models rely on certain statistical assumptions about the collective...
Even though crystal plasticity models have been available for decades, the quantification of materia...
Development and validation of constitutive models for polycrystalline materials subjected to high st...
International audienceAs the computational capability of modern computers increases, the Crystal Pla...
The overall and local tensile responses of an α iron multicrystalline sample are investigated in ord...
Crystal plasticity models enable predictions of macroscopic deformation behavior as well as texture ...
The macroscale mechanical behaviour of crystalline materials, such as polycrystalline metals and sin...
A multiscale computational model is developed for determining the elasto-plastic behavior of polycry...
Predictions of the mechanical response of structural elements are conditioned by the accuracy of con...
Identification of elastic and plastic properties of materials from indentation tests received consid...
Grain refinement is a common strategy to improve the yield strength of magnesium (Mg) alloys quantif...
Micromechanical modeling of material behavior has become an accepted approach to describe the macros...
Lightweight materials such as Aluminum are prevalent in aerospace and automotive vehicles, but the u...
OAK-135 Development and validation of constitutive models for polycrystalline materials subjected to...
A severe obstacle for the routine use of crystal plasticity models is the effort associated with det...
Physics-based crystal plasticity models rely on certain statistical assumptions about the collective...
Even though crystal plasticity models have been available for decades, the quantification of materia...
Development and validation of constitutive models for polycrystalline materials subjected to high st...
International audienceAs the computational capability of modern computers increases, the Crystal Pla...
The overall and local tensile responses of an α iron multicrystalline sample are investigated in ord...
Crystal plasticity models enable predictions of macroscopic deformation behavior as well as texture ...
The macroscale mechanical behaviour of crystalline materials, such as polycrystalline metals and sin...
A multiscale computational model is developed for determining the elasto-plastic behavior of polycry...
Predictions of the mechanical response of structural elements are conditioned by the accuracy of con...
Identification of elastic and plastic properties of materials from indentation tests received consid...
Grain refinement is a common strategy to improve the yield strength of magnesium (Mg) alloys quantif...
Micromechanical modeling of material behavior has become an accepted approach to describe the macros...
Lightweight materials such as Aluminum are prevalent in aerospace and automotive vehicles, but the u...
OAK-135 Development and validation of constitutive models for polycrystalline materials subjected to...