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Mechanics of Multiscale Hybrid Nanocomposites

Ebrahimi, Farzad Dabbagh Ali
Heftet / 2022 / Engelsk

Produktdetaljer

ISBN
9780128196144
Publisert
2022-02-04
Utgiver
Elsevier Science Publishing Co Inc
Vekt
1000 gr
Høyde
229 mm
Bredde
152 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
376

Forfatter
Ebrahimi, Farzad
Dabbagh Ali

Biografisk notat

Farzad Ebrahimi is an Associate Professor in the Department of Mechanical Engineering, IKIU, Qazvin, Iran. His research interests include mechanical behaviors of nano-engineered systems, mechanics of composites and nanocomposites, functionally graded materials, viscoelasticity, and smart materials and structures. Dr. Ebrahimi has authored more than 400 high-quality peer-reviewed research articles in his fields of interest. He has also edited and authored multiple books for well-known publishers. He is an Associate Editor of the journal Shock and Vibration, an Editorial Board member of the Journal of Computational Applied Mechanics, and a distinguished reviewer whose expertise helps the editors of prestigious journals judge research articles. Ali Dabbagh is a Research Assistant at the School of Mechanical Engineering, University of Tehran, Tehran, Iran. His research focuses on the field of solid mechanics with an emphasis on the mechanics of composites and polymer nanocomposites, micromechanical homogenization techniques, and dispersion behaviors of waves scattered in functionally graded material nanostructures. He has authored or co-authored more than 50 journal articles and 2 books, and is a member of Iran’s National Elites Foundation.

Mechanics of Multiscale Hybrid Nanocomposites

Ebrahimi, Farzad Dabbagh Ali
Heftet / 2022 / Engelsk
Ebrahimi, Farzad Dabbagh Ali
Heftet / 2022 / Engelsk
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Mechanics of Multiscale Hybrid Nanocomposites provides a practical and application-based investigation of both static and dynamic behaviors of multiscale hybrid nanocomposites. The book outlines how to predict the mechanical behavior and material characteristics of these nanocomposites via two-step micromechanical homogenization techniques performed in an energy-based approach that is incorporated with the strain-displacement relations of shear deformable beam, plate and shell theories. The effects of using various nanofillers are detailed, providing readers with the best methods of improving nanocomposite stiffness. Both numerical (Ritz, Rayleigh-Ritz, etc.) and analytical (Navier, Galerkin, etc.) solution methods are outlined, along with examples and techniques.
Les mer
1. Introduction to Composites, Nanocomposites, and Hybrid Nanocomposites 2. Micromechanical Homogenization and Kinematic Relations 3. Static Analysis of Multi-Scale Hybrid Nanocomposite Structures 4. Dynamic Analysis of Multi-Scale Hybrid Nanocomposite Structures
Les mer
Provides a practical and application-based investigation of both static and dynamic behaviors of multi-scale hybrid nanocomposites
Demonstrates the influences of carbon nanotube agglomerates and wave phenomena on the constitutive modeling of three-phase hybrid nanocomposites Analyzes nonlinear dynamic characteristics of hybrid nanocomposite systems, as well as how to monitor the system’s stability via linearization technique Discusses the stability of linear nanocomposite systems subjected to the dispersion of elastic waves and bending loads Outlines how to design three-phase nanocomposite structures for resistance against buckling-mode failure Instructs how to derive the governing equations of continuous systems in both linear and nonlinear regimes in the framework of various types of kinematic shell and plate theories
Les mer

Relaterte produkter

Mechanics of Multiscale Hybrid Nanocomposites provides a practical and application-based investigation of both static and dynamic behaviors of multiscale hybrid nanocomposites. The book outlines how to predict the mechanical behavior and material characteristics of these nanocomposites via two-step micromechanical homogenization techniques performed in an energy-based approach that is incorporated with the strain-displacement relations of shear deformable beam, plate and shell theories. The effects of using various nanofillers are detailed, providing readers with the best methods of improving nanocomposite stiffness. Both numerical (Ritz, Rayleigh-Ritz, etc.) and analytical (Navier, Galerkin, etc.) solution methods are outlined, along with examples and techniques.
Les mer
1. Introduction to Composites, Nanocomposites, and Hybrid Nanocomposites 2. Micromechanical Homogenization and Kinematic Relations 3. Static Analysis of Multi-Scale Hybrid Nanocomposite Structures 4. Dynamic Analysis of Multi-Scale Hybrid Nanocomposite Structures
Les mer
Provides a practical and application-based investigation of both static and dynamic behaviors of multi-scale hybrid nanocomposites
Demonstrates the influences of carbon nanotube agglomerates and wave phenomena on the constitutive modeling of three-phase hybrid nanocomposites Analyzes nonlinear dynamic characteristics of hybrid nanocomposite systems, as well as how to monitor the system’s stability via linearization technique Discusses the stability of linear nanocomposite systems subjected to the dispersion of elastic waves and bending loads Outlines how to design three-phase nanocomposite structures for resistance against buckling-mode failure Instructs how to derive the governing equations of continuous systems in both linear and nonlinear regimes in the framework of various types of kinematic shell and plate theories
Les mer

Produktdetaljer

ISBN
9780128196144
Publisert
2022-02-04
Utgiver
Elsevier Science Publishing Co Inc
Vekt
1000 gr
Høyde
229 mm
Bredde
152 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
376

Forfatter
Ebrahimi, Farzad
Dabbagh Ali

Biografisk notat

Farzad Ebrahimi is an Associate Professor in the Department of Mechanical Engineering, IKIU, Qazvin, Iran. His research interests include mechanical behaviors of nano-engineered systems, mechanics of composites and nanocomposites, functionally graded materials, viscoelasticity, and smart materials and structures. Dr. Ebrahimi has authored more than 400 high-quality peer-reviewed research articles in his fields of interest. He has also edited and authored multiple books for well-known publishers. He is an Associate Editor of the journal Shock and Vibration, an Editorial Board member of the Journal of Computational Applied Mechanics, and a distinguished reviewer whose expertise helps the editors of prestigious journals judge research articles. Ali Dabbagh is a Research Assistant at the School of Mechanical Engineering, University of Tehran, Tehran, Iran. His research focuses on the field of solid mechanics with an emphasis on the mechanics of composites and polymer nanocomposites, micromechanical homogenization techniques, and dispersion behaviors of waves scattered in functionally graded material nanostructures. He has authored or co-authored more than 50 journal articles and 2 books, and is a member of Iran’s National Elites Foundation.

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