Sound transmission through infinite planar media characterized by in-plane periodicity is faced by exploiting the free wave propagation on the related unit cells. An appropriate through-thickness transfer matrix, relating a proper set of variables describing the acoustic field at the two external surfaces of the medium, is derived by manipulating the dynamic stiffness matrix related to a finite element model of the unit cell. The adoption of finite element models avoids analytical modeling or the simplification on geometry or materials. The obtained matrix is then used in a transfer matrix method context, making it possible to combine the periodic medium with layers of different nature and to treat both hard-wall and semi-infinite fluid ter...
Recently, there has been a large body of work directed towards the use of non-homogeneous materials ...
International audienceThe Transfer Matrix Method (TMM) is used conventionally to predict the acousti...
The acoustic wave propagation in periodically layered media has been successfully described by Floqu...
Sound transmission through infinite planar media characterized by in-plane periodicity is faced by e...
Sound transmission through infinite planar multilayered structures characterized by in-plane periodi...
This paper discusses the use of a Transfer Matrix (TM) method for predicting the acoustic behavior o...
International audienceThis paper deals with the modeling of the acoustic behavior (absorption and tr...
In this paper, a hybrid wave based-transfer matrix model is presented that allows for the investigat...
AbstractIn ultrasonic NDE applications, situations involving propagation of acoustic waves through i...
Multilayer structures allow obtaining good performance in acoustic insulation to eliminate unwanted ...
Nowadays, engineers strongly rely on damping treatments to improve the NVH properties of their produ...
This paper completes a series of articles on the calculation of sound transmission through periodica...
In this work, an efficient and accurate framework for the prediction of the direct impact sound insu...
A generalized algorithm is developed for studying the sound wave propagation in a system of intercon...
Recently, there has been a large body of work directed towards the use of non-homogeneous materials ...
International audienceThe Transfer Matrix Method (TMM) is used conventionally to predict the acousti...
The acoustic wave propagation in periodically layered media has been successfully described by Floqu...
Sound transmission through infinite planar media characterized by in-plane periodicity is faced by e...
Sound transmission through infinite planar multilayered structures characterized by in-plane periodi...
This paper discusses the use of a Transfer Matrix (TM) method for predicting the acoustic behavior o...
International audienceThis paper deals with the modeling of the acoustic behavior (absorption and tr...
In this paper, a hybrid wave based-transfer matrix model is presented that allows for the investigat...
AbstractIn ultrasonic NDE applications, situations involving propagation of acoustic waves through i...
Multilayer structures allow obtaining good performance in acoustic insulation to eliminate unwanted ...
Nowadays, engineers strongly rely on damping treatments to improve the NVH properties of their produ...
This paper completes a series of articles on the calculation of sound transmission through periodica...
In this work, an efficient and accurate framework for the prediction of the direct impact sound insu...
A generalized algorithm is developed for studying the sound wave propagation in a system of intercon...
Recently, there has been a large body of work directed towards the use of non-homogeneous materials ...
International audienceThe Transfer Matrix Method (TMM) is used conventionally to predict the acousti...
The acoustic wave propagation in periodically layered media has been successfully described by Floqu...