Advances in Structural Mechanics Modeled with FEM

Advances in Structural Mechanics Modeled with FEM

It is well known that many structural and physical problems cannot be solved by analytical approaches. These problems require the development of numerical methods to get approximate but accurate solutions. The minite element method (FEM) represents one of the most typical methodologies that can be u...

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Bibliographic Details
Other Authors: Tarantino, Angelo Marcello (Editor), Majorana, Carmelo (Editor), Luciano, Raimondo (Editor), Bacciocchi, Michele (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
Subjects:
Research & information: general
Technology: general issues
beam element
Quasi-3D
static bending
functionally graded beam
Monte Carlo method
coalbed methane
stochastic fracture network
fracture geometric parameters
dual-porosity and dual-permeability media
finite element method
three-phase composite materials
Finite Element modeling
sandwich plates
zig-zag theory
carbon nanotubes
free vibrations
soda-lime glass
cohesive zone model
rate-dependent
impact loading
finite element
FGM
plate
material-oriented shape functions
NURBS
Finite elements
finite bending
3D elasticity
Eulerian slenderness
compactness index
Searle parameter
Elastica
pultruded beams
effective stiffness matrix
FRP
hollow circular beams
rigid finite element method
composite
steel-polymer concrete
machine tool
multibody system
orthotropic failure criteria
implementation
plasticity
masonry
geometric nonlinearity
FEM
thermoelasticity
bowing
transient heat flux
acoustic black holes
acoustic-oriented design
additive manufacturing
vibroacoustics
material parameter identification
model order reduction
reinforced concrete
finite element analysis
crack band
strain localization
post-peak softening
viscoplastic regularization
convergence
mesh sensitivity
bond-slip
flexural behavior
n/a
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Summary:It is well known that many structural and physical problems cannot be solved by analytical approaches. These problems require the development of numerical methods to get approximate but accurate solutions. The minite element method (FEM) represents one of the most typical methodologies that can be used to achieve this aim, due to its simple implementation, easy adaptability, and very good accuracy. For these reasons, the FEM is a widespread technique which is employed in many engineering fields, such as civil, mechanical, and aerospace engineering. The large-scale deployment of powerful computers and the consequent recent improvement of the computational resources have provided the tools to develop numerical approaches that are able to solve more complex structural systems characterized by peculiar mechanical configurations. Laminated or multi-phase composites, structures made of innovative materials, and nanostructures are just some examples of applications that are commonly and accurately solved by the FEM. Analogously, the same numerical approaches can be employed to validate the results of experimental tests. The main aim of this Special Issue is to collect numerical investigations focused on the use of the finite element method
Physical Description:1 electronic resource (266 p.)
ISBN:books978-3-0365-0991-4
9783036509907
9783036509914
Access:Open Access

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