The ability to accurately determine elastic properties of orthotropic materials is important in the design and health assessment of composite structures. Direct methods using strain gauges and extensometers for estimating orthotropic properties have become popular in recent years. In cases where strains are highly localized, the material properties are inhomogeneous, or the material has localized damage, the use of these measurement schemes often provides insufficient information. To address this, we propose an inverse method, based on quasi-static elasticity imaging (QSEI) for determining inhomogeneous orthotropic elastic properties using distributed displacement measurements obtained from digital image correlation (DIC). The QSEI-based ap...
Classical material testing techniques experience limitations for material model parameter identifica...
This work investigates the inverse problem of reconstructing the continuous displacement field of a ...
In this paper, a novel application of Finite Element Update Method (FEUM) is proposed for the invers...
The ability to accurately determine elastic properties of orthotropic materials is important in the ...
The mode I fracture parameters for an orthotropic body are directly calculated from full-field defor...
AbstractThis paper presents a mixed numerical–experimental method for the identification of the four...
A viable approach to solve inverse problems in elasticity is proposed. It is based on regression alg...
One of the main challenges in composite design and development is to be able to compute the damage s...
Measuring residual stress in an orthotropic material is a difficult task due to the complex behavior...
Measuring residual stress in orthotropic materials is significantly more difficult than in isotropic...
AbstractThe paper presents an inverse procedure for identifying elastic properties of isotropic or o...
The limited knowledge of stiffness reductions is a major problem in reliably predicting the post-im...
The ability to detect spatially-distributed defects and material changes over time is a central them...
No 888153 CENTRO-01-0145-FEDER-029713 POCI-01-0145-FEDER-031243 POCI-01-0145-FEDER-030592 ENTRO-01-0...
In structural design and structural health monitoring (SHM), characterization of elastic stiffness t...
Classical material testing techniques experience limitations for material model parameter identifica...
This work investigates the inverse problem of reconstructing the continuous displacement field of a ...
In this paper, a novel application of Finite Element Update Method (FEUM) is proposed for the invers...
The ability to accurately determine elastic properties of orthotropic materials is important in the ...
The mode I fracture parameters for an orthotropic body are directly calculated from full-field defor...
AbstractThis paper presents a mixed numerical–experimental method for the identification of the four...
A viable approach to solve inverse problems in elasticity is proposed. It is based on regression alg...
One of the main challenges in composite design and development is to be able to compute the damage s...
Measuring residual stress in an orthotropic material is a difficult task due to the complex behavior...
Measuring residual stress in orthotropic materials is significantly more difficult than in isotropic...
AbstractThe paper presents an inverse procedure for identifying elastic properties of isotropic or o...
The limited knowledge of stiffness reductions is a major problem in reliably predicting the post-im...
The ability to detect spatially-distributed defects and material changes over time is a central them...
No 888153 CENTRO-01-0145-FEDER-029713 POCI-01-0145-FEDER-031243 POCI-01-0145-FEDER-030592 ENTRO-01-0...
In structural design and structural health monitoring (SHM), characterization of elastic stiffness t...
Classical material testing techniques experience limitations for material model parameter identifica...
This work investigates the inverse problem of reconstructing the continuous displacement field of a ...
In this paper, a novel application of Finite Element Update Method (FEUM) is proposed for the invers...