In the present paper, the authors report on the application of non-destructive acoustic waves technologies to determine the structural integrity of engineering components. In particular, a finite element (FE) system COSMOS/M is used to investigate propagation characteristics of ultrasonic waves in linear, plane and three-dimensional structures without and with geometric concentrators. In addition, the FE results obtained are compared to the analytical and experimental ones. The study illustrates the efficient use of the FE method to model guided wave propagation problems and demonstrates the FE method's potential to solve problems when an analytical solution is not possible due to "complicated" geometry
The paper deals with the finite element modelling of acoustic waves propagation through a stone maso...
Acoustic Emissions (AE) are at the basis of extremely accurate and reliable monitoring systems. With...
This paper describes the development of a large finite element (FE) model representing ultrasonic in...
The paper deals with the acoustic emission sensor modeling by means of FEM system COSMOS/M. The foll...
Monitoring of structures implies integration of sensors and actuators, smart materials, data transfe...
The design of acoustic emission structural health monitoring systems often only considers the plate ...
Early detection of defects in commercial piping system is important in preventing enormous and expen...
Acoustic emission (AE) testing is a widely used nondestructive testing (NDT) method to investigate m...
The major objective of this work is to develop an efficient Finite Element Analysis (FEA) procedure ...
From a computational point of view, the numerical analysis of ultrasonic guided waves is still a ver...
The aim of the work presented in this thesis is to provide tools to extend modelling capacities and ...
The measurement and numerical modelling of ultrasonic wave scattering is essential for detecting com...
The ultrasonic non-destructive testing of components may encounter considerable difficulties to inte...
The mathematical model to describe the acoustic emission (AE) in a massive elastic body by radiating...
The work of this Engineering Doctorate addresses the research and development of efficient Finite El...
The paper deals with the finite element modelling of acoustic waves propagation through a stone maso...
Acoustic Emissions (AE) are at the basis of extremely accurate and reliable monitoring systems. With...
This paper describes the development of a large finite element (FE) model representing ultrasonic in...
The paper deals with the acoustic emission sensor modeling by means of FEM system COSMOS/M. The foll...
Monitoring of structures implies integration of sensors and actuators, smart materials, data transfe...
The design of acoustic emission structural health monitoring systems often only considers the plate ...
Early detection of defects in commercial piping system is important in preventing enormous and expen...
Acoustic emission (AE) testing is a widely used nondestructive testing (NDT) method to investigate m...
The major objective of this work is to develop an efficient Finite Element Analysis (FEA) procedure ...
From a computational point of view, the numerical analysis of ultrasonic guided waves is still a ver...
The aim of the work presented in this thesis is to provide tools to extend modelling capacities and ...
The measurement and numerical modelling of ultrasonic wave scattering is essential for detecting com...
The ultrasonic non-destructive testing of components may encounter considerable difficulties to inte...
The mathematical model to describe the acoustic emission (AE) in a massive elastic body by radiating...
The work of this Engineering Doctorate addresses the research and development of efficient Finite El...
The paper deals with the finite element modelling of acoustic waves propagation through a stone maso...
Acoustic Emissions (AE) are at the basis of extremely accurate and reliable monitoring systems. With...
This paper describes the development of a large finite element (FE) model representing ultrasonic in...