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Mechanics of Nanocomposites Homogenization and Analysis 1st Edition by Farzad Ebrahimi, Ali Dabbagh 9781000049961 1000049965

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Mechanics of Nanocomposites Homogenization and Analysis 1st Edition Farzad Ebrahimi Digital Instant Download

Author(s): Farzad Ebrahimi, Ali Dabbagh
ISBN(s): 9781000049961, 1000049965
Edition: 1
File Details: PDF, 14.60 MB
Year: 2020
Language: english
SKU: EB-11908676 Category: Tags: ,

Mechanics of Nanocomposites Homogenization and Analysis 1st Edition by Farzad Ebrahimi, Ali Dabbagh – Ebook PDF Instant Download/Delivery: 9781000049961, 1000049965

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Product details:

ISBN 10: 1000049965

ISBN 13: 9781000049961

Author: Farzad Ebrahimi, Ali Dabbagh

Emphasizing the static and dynamic behaviors of nanocomposite single- or multilayered structures in the framework of continuum mechanics-based approaches, Mechanics of Nanocomposites: Homogenization and Analysis investigates mechanical behaviors of polymeric matrices strengthened via various nanofillers and nanoparticles such as carbon nanotubes (CNTs), graphene platelets (GPLs), and graphene oxides (GOs). It covers equivalent properties of nanocomposites that are obtained via homogenization techniques based on micromechanics approaches. In addition, this comprehensive book: Discusses the effects of various nanofillers and identifies the amount of the improvement that can be induced in the stiffness of the polymeric nanocomposites by adding a finite content of the aforementioned nanosize reinforcements Magnifies the effect of the number of the stacking plies of the multi-layered nanocomposite structures on both static and dynamic responses of the continuous systems manufactured from such sandwich structures Presents a wide range of analytical and numerical solution procedures Investigates the effects of porosity along with mechanical characteristics of nanocomposites Considers the time-dependency of the material properties of the viscoelastic polymeric nanocomposite structures Performs analyses using an energy-based approach incorporated with the strain-displacement relations of both classical and higher-order shear deformable beam, plate, or shell theorems Aimed at researchers, academics, and professionals working across mechanical, materials, and other areas of engineering, this work ensures that readers are equipped to fully understand the mechanical characteristics of nanocomposite structures so that they can design, develop, and apply these materials effectively.

Table of contents:

PART 1: Preliminary Requirements

  1. Introduction

  2. Mathematical Tools

PART 2: Static Analyses

  1. Buckling Analysis of Embedded GOR Nanocomposite Shells

  2. Thermally Influenced Stability Behaviors of GOR Nanocomposite Cylinders

  3. Thermal Buckling Behaviors of Sandwich Beams Covered by FG-CNTR Nanocomposite Facesheets

  4. Thermo-Magnetically Influenced Static Stability of FG-GOR Nanocomposite Beams

  5. Effects of Axial Excitation and Non-Uniform Magnetic Field on the Buckling Behavior of FG-GOR Nanocomposite Beams

  6. Thermo-Mechanical Buckling Analysis of Multilayered FG-GPLR Nanocomposite Plates

  7. On Buckling Behaviors of FG-GOR Nanocomposite Plates Rested on Elastic Substrate

  8. Thermal Buckling Analysis of Embedded GOR Nanocomposite Plates

PART 3: Dynamic Analyses

  1. Thermo-Mechanical Vibration Analysis of Sandwich Beams with CNTR Nanocomposite Facesheets

  2. Thermally Affected Vibrational Responses of Multilayered FG-GPLR Nanocomposite Beams

  3. Thermo-Magnetically Influenced Vibration Analysis of GPLR Nanocomposite Beams

  4. Damped Vibration Analysis of Multilayered FG-GPLR Nanocomposite Beams Embedded on Viscoelastic Substrate

  5. Influence of External Non-Uniform Magnetic Field on the Natural Frequency of FG-GOR Nanocomposite Beams

  6. Thermo-Mechanical Vibration Analysis of Multilayered FG-GPLR Nanocomposite Plates

  7. Vibrational Behaviors of FG-GOR Nanocomposite Plates Embedded on an Elastic Substrate in Thermal Environment

  8. Coupled Impacts of Thermal and Viscose Losses on the Natural Frequency of FG-GOR Nanocomposite Plates

  9. Nonlinear Vibration Analysis of Porous FG-GOR Nanocomposite Shells

  10. Transient Analysis of Porous GOR Nanocomposite Plates

  11. On Transient Responses of Viscoelastic GPLR Nanocomposite Plates

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Tags: Farzad Ebrahimi, Ali Dabbagh, Mechanics, Homogenization