In spite of a large amount of research, the understanding of damping forces in vibrating structures is not well developed. A major reason for this is that, by contrast with inertia and stiffness forces, the physics behind the damping forces is in general not clear. As a consequence, modelling of damping from the first principle is difficult, if not impossible, for real-life engineering structures. The common approach is to use the proportional damping model where it is assumed that the damping matrix is proportional to mass and stiffness matrices. The main limitation of the proportional damping approximation comes from the fact that the variation of damping factors with respect to vibration frequency cannot be modelled accurately by using t...
Two potential applications of a dynamic stiffness matrix (DSM) based direct damping matrix identific...
A procedure is presented to identify the nonlinear damping and stiffness parameters of harmonically ...
"In finite element modeling, damping parameters, structural characteristics of joints, and boundary ...
Characterization of damping forces in a vibrating structure has long been an active area of research...
Characterization of damping forces in a vibrating structure has long been an active area of research...
AbstractAll structures exhibit some form of damping, but despite a large literature on the damping, ...
A verified computational model of a complex structure is crucial for reliable vibro-acoustic simulat...
The main objective of this dissertation is to develop a new experimental damping matrix identificati...
The dynamic response of complex structures can be estimated by means of Generalized Single Degree of...
Damping effects are of great interest for structural analysis and evaluations. Structural modal damp...
In modern electronics technology, the rapid advances of microsystems present an imperative requireme...
Damping mechanisms exist in all vibration systems, but their nature is little understood and there i...
In this paper, we propose a model updating method for systems with nonviscous proportional damping. ...
The theory of direct experimental identification of damping matrix based on the dynamic stiffness ma...
This paper presents a novel identification technique of the modal damping of linear systems. It is b...
Two potential applications of a dynamic stiffness matrix (DSM) based direct damping matrix identific...
A procedure is presented to identify the nonlinear damping and stiffness parameters of harmonically ...
"In finite element modeling, damping parameters, structural characteristics of joints, and boundary ...
Characterization of damping forces in a vibrating structure has long been an active area of research...
Characterization of damping forces in a vibrating structure has long been an active area of research...
AbstractAll structures exhibit some form of damping, but despite a large literature on the damping, ...
A verified computational model of a complex structure is crucial for reliable vibro-acoustic simulat...
The main objective of this dissertation is to develop a new experimental damping matrix identificati...
The dynamic response of complex structures can be estimated by means of Generalized Single Degree of...
Damping effects are of great interest for structural analysis and evaluations. Structural modal damp...
In modern electronics technology, the rapid advances of microsystems present an imperative requireme...
Damping mechanisms exist in all vibration systems, but their nature is little understood and there i...
In this paper, we propose a model updating method for systems with nonviscous proportional damping. ...
The theory of direct experimental identification of damping matrix based on the dynamic stiffness ma...
This paper presents a novel identification technique of the modal damping of linear systems. It is b...
Two potential applications of a dynamic stiffness matrix (DSM) based direct damping matrix identific...
A procedure is presented to identify the nonlinear damping and stiffness parameters of harmonically ...
"In finite element modeling, damping parameters, structural characteristics of joints, and boundary ...