Finite Element Vibration and Dynamic Response Analysis of Engineering Structures

Abstract: This bibliography lists references to papers, conference proceedings, and theses/dissertations dealing with finite element vibration and dynamic response analysis of engineering structures that were published from 1994 to 1998. It contains 539 citations. The following types of structures are included: basic structural systems; ground structures; ocean and coastal structures; mobile structures; and containment structures.

“…where upper script (1) in Eq. (45) identifies the calculation for case #1. m S stands for the structure mass, and m H refers to the fluid added mass.…”

“…Dynamic response of linear systems subjected to dynamic loading, such as shock or seism, with finite element procedures is of paramount importance in many engineering applications [1]. Taking fluid-structure interaction into account in such problems is made possible by the development of finite element or boundary element methods [2].…”

Dynamic analysis of fluid–structure interaction problems with modal methods using pressure-based fluid finite elements

“…where upper script (1) in Eq. (45) identifies the calculation for case #1. m S stands for the structure mass, and m H refers to the fluid added mass.…”

“…Dynamic response of linear systems subjected to dynamic loading, such as shock or seism, with finite element procedures is of paramount importance in many engineering applications [1]. Taking fluid-structure interaction into account in such problems is made possible by the development of finite element or boundary element methods [2].…”

Dynamic analysis of fluid–structure interaction problems with modal methods using pressure-based fluid finite elements

“…It is well established from published literature where there exists a critical velocity of the fluid near which the natural frequency of the pipeline tends to zero. Dynamic response of linear systems subjected to dynamic loading, such as shock or seism, with finite element procedures is of paramount importance in many engineering applications [18]. Advances in finite element methodology have made it possible to simulate the dynamic motion of the fluid coupled with the flexible pipe for arbitrary geometries within the context of a general purpose finite element program [19].…”

One-way fluid structure interaction of pipe under flow with different boundary conditions

“…In order to consider the flexibility of the system, many common numerical simulation methods are developed. Being the most common one, finite element method (FEM) brings tremendous convenience to the response calculation of a complex dynamic system in the low frequency range [5]. Jenkins et al [6] used FEM to demonstrate the detailed characteristics of a typical raftisolator-receiver system via secondary force inputs.…”

Dynamic Modeling and Characteristic Analysis of Floating Raft System with Attached Pipes