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Advanced Theoretical and Computational Methods for Complex Materials and Structures

The broad use of composite materials and shell structural members with complex geometries in technologies related to various branches of engineering has gained increased attention from scientists and engineers for the development of even more refined approaches and investigation of their mechanical...

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Bibliographic Details
Main Author: Tornabene, Francesco
Other Authors: Dimitri, Rossana
Format: eBook
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
Subjects:
Robust Optimization
Fling-step
Shield Tunnel
Far-field
Special Moment Frame (smf)
Transport
Nanoparticle Suspension
N/a
Mirror Source-sink Method
Analytical
Plasmons Vibrational Modes
Basement Bottom Reinforcement
Uncertainty
Nonlocal And Size-dependent Dielectric
Stochastic
Temperature-dependent Properties
Technology: General Issues / Bicssc
Composite
Graphene Sheet
Young's Modulus Of Reinforced Soil
Polyethylene Terephthalate (pet)
Stratum Movements
Circular Foundation Pit
Dynamic Stability
Simultaneous Excitation
Spectral Thermal Pulsing
Precise Prediction
Natural Frequency
Bottle
Damage
Dem Simulations
Advanced Model
Buckling
Nano-device Applications
Nanoparticles
Soil Displacement
Mindlin Solution
Tunnel Heave
Epistemic Uncertainty
Numerical Analysis
Eringen's Differential Constitutive Model
Centrifuge Modelling Test
Eels
Ground Settlement
Metro Constructions
Tunnel Deformation
Near-field Earthquake
Sensor Design
Evidence Theory
Reinforcement Depth
Elastomeric Foundation
Brownian Motion
Palletized Goods
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
Description
Summary:The broad use of composite materials and shell structural members with complex geometries in technologies related to various branches of engineering has gained increased attention from scientists and engineers for the development of even more refined approaches and investigation of their mechanical behavior. It is well known that composite materials are able to provide higher values of strength stiffness, and thermal properties, together with conferring reduced weight, which can affect the mechanical behavior of beams, plates, and shells, in terms of static response, vibrations, and buckling loads. At the same time, enhanced structures made of composite materials can feature internal length scales and non-local behaviors, with great sensitivity to different staking sequences, ply orientations, agglomeration of nanoparticles, volume fractions of constituents, and porosity levels, among others. In addition to fiber-reinforced composites and laminates, increased attention has been paid in literature to the study of innovative components such as functionally graded materials (FGMs), carbon nanotubes (CNTs), graphene nanoplatelets, and smart constituents. Some examples of smart applications involve large stroke smart actuators, piezoelectric sensors, shape memory alloys, magnetostrictive and electrostrictive materials, as well as auxetic components and angle-tow laminates. These constituents can be included in the lamination schemes of smart structures to control and monitor the vibrational behavior or the static deflection of several composites. The development of advanced theoretical and computational models for composite materials and structures is a subject of active research and this is explored here for different complex systems, including their static, dynamic, and buckling responses; fracture mechanics at different scales; the adhesion, cohesion, and delamination of materials and interfaces.
Item Description:Creative Commons (cc), https://creativecommons.org/licenses/by/4.0/
Physical Description:1 electronic resource (180 p.)
ISBN:9783036511191
books978-3-0365-1119-1
9783036511184

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