This paper is devoted to determination of elastic properties of composite constituents by using an inverse identification procedure. The aim of the developed identification procedure is to compute the elastic constants of individual material phases on the basis of known properties of composite materials. The inverse problem of identification has been solved by combining an evolutionary algorithm with a micromechanical model. The paper also focuses on selection of a suitable micromechanical model for optimization which should ensure a compromise between accuracy and complexity. Two different cases have been studied: composite reinforced with short cylindrical fibers and composite reinforced with cubic particles. Moreover, Monte Carlo simulat...
The paper presents an application of the inverse analysis to the identification of two models: a pha...
This paper presents a method to determine parameters in constitutive equations, used for the descrip...
An overview of an ongoing effort to automate the inverse data-driven constitutive characterization o...
A procedure based on the principles of inverse analysis has been employed to identify the elastic ma...
materials, interphase. The simulation of the mechanical behaviour of structures with the finite elem...
This work deals with the problem of characterising the elastic properties of a composite material at...
This paper describes the method for the determination of the elastic constants of composite material...
An optimization method to identify the material parameters of composite structures using an inverse ...
International audienceOne of the main issues of composite materials is related to the difficulty of ...
In this paper a method is presented for the estimation of material parameters of composites. The met...
[EN] Characterizing mechanical properties play a major role in several fields such as biomedical and...
An inverse approach has been presented in this paper for extracting fibre properties from effective ...
For the determination of effective elastic properties an energy averaging procedure has been used fo...
An inverse technique based on vibration tests to characterise isotropic, orthotropic and viscoelasti...
The paper presents an application of the inverse analysis to the identification of two models: a pha...
This paper presents a method to determine parameters in constitutive equations, used for the descrip...
An overview of an ongoing effort to automate the inverse data-driven constitutive characterization o...
A procedure based on the principles of inverse analysis has been employed to identify the elastic ma...
materials, interphase. The simulation of the mechanical behaviour of structures with the finite elem...
This work deals with the problem of characterising the elastic properties of a composite material at...
This paper describes the method for the determination of the elastic constants of composite material...
An optimization method to identify the material parameters of composite structures using an inverse ...
International audienceOne of the main issues of composite materials is related to the difficulty of ...
In this paper a method is presented for the estimation of material parameters of composites. The met...
[EN] Characterizing mechanical properties play a major role in several fields such as biomedical and...
An inverse approach has been presented in this paper for extracting fibre properties from effective ...
For the determination of effective elastic properties an energy averaging procedure has been used fo...
An inverse technique based on vibration tests to characterise isotropic, orthotropic and viscoelasti...
The paper presents an application of the inverse analysis to the identification of two models: a pha...
This paper presents a method to determine parameters in constitutive equations, used for the descrip...
An overview of an ongoing effort to automate the inverse data-driven constitutive characterization o...