Add to ORKGA general three dimensional variational principle is obtained for the motion of an acoustic field enclosed in a rigid or flexible container by the method of canonical decomposition applied to a modified form of the wave equation in the displacement potential. The general principle is specialized to a mixed two-field principle that contains the fluid displacement potential and pressure as independent fields. Semidiscrete finite element equations of motion based on this principle are derived and sample cases are given
This is the author accepted manuscript. The final version is available from CUP via the DOI in this ...
Numerical techniques are presented for the determination of the added mass matrix and the excess pre...
For the dynamic behavior of lightweight structures like thin shells and membranes exposed to fluid f...
A general three-field variational principle is obtained for the motion of an acoustic fluid enclosed...
Development of design tools to furnish optimal acoustic environments for lightweight aircraft demand...
This work investigates an acoustic fluid structure interaction formulation. It is ap-plied to an imm...
This book is devoted to the study of coupled partial differential equation models, which describe co...
O presente trabalho pretende estudar alguns casos de problemas de acoplamento acústico- mecânico 2D ...
Based on the fundamental equations of continuum mechanics, the concept of Hamilton's principle and t...
A discrete model of cochlear mechanics is introduced that includes a full, three-dimensional, descri...
We present the implementation of a solution scheme for fluid-structure interaction problems via the...
This is the peer reviewed version of the following article: Tello, A, Codina, R. Field‐to‐field cou...
In this paper, we present a mode superposition method for fluid-structure interaction problems based...
On the basis of a variational principle, a mixed finite element approach is developed to describe th...
This contribution deals with mathematical modelling and numerical simula- tion of the human phonati...
This is the author accepted manuscript. The final version is available from CUP via the DOI in this ...
Numerical techniques are presented for the determination of the added mass matrix and the excess pre...
For the dynamic behavior of lightweight structures like thin shells and membranes exposed to fluid f...
A general three-field variational principle is obtained for the motion of an acoustic fluid enclosed...
Development of design tools to furnish optimal acoustic environments for lightweight aircraft demand...
This work investigates an acoustic fluid structure interaction formulation. It is ap-plied to an imm...
This book is devoted to the study of coupled partial differential equation models, which describe co...
O presente trabalho pretende estudar alguns casos de problemas de acoplamento acústico- mecânico 2D ...
Based on the fundamental equations of continuum mechanics, the concept of Hamilton's principle and t...
A discrete model of cochlear mechanics is introduced that includes a full, three-dimensional, descri...
We present the implementation of a solution scheme for fluid-structure interaction problems via the...
This is the peer reviewed version of the following article: Tello, A, Codina, R. Field‐to‐field cou...
In this paper, we present a mode superposition method for fluid-structure interaction problems based...
On the basis of a variational principle, a mixed finite element approach is developed to describe th...
This contribution deals with mathematical modelling and numerical simula- tion of the human phonati...
This is the author accepted manuscript. The final version is available from CUP via the DOI in this ...
Numerical techniques are presented for the determination of the added mass matrix and the excess pre...
For the dynamic behavior of lightweight structures like thin shells and membranes exposed to fluid f...