- Broschiertes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
Wave Propagation Analysis of Smart Nanostructures presents a mathematical framework for the wave propagation problem of small scale nanobeams and nanoplates manufactured from various materials including functionally graded composites, smart piezoelectric materials and smart magneto-electro-elastic materials.
Andere Kunden interessierten sich auch für
- Mahmood AliofkhazraeiTwo-Dimensional Nanostructures136,99 €
- Jun OhtaSmart CMOS Image Sensors and Applications58,99 €
- C. Sidney BurrusFast Fourier Transforms27,99 €
- Gaurav VermaNanostructures164,99 €
- Contributions of Africa's Indigenous Knowledge to the Wave of Digital Technology185,99 €
- Shock Wave-Boundary-Layer Interactions57,99 €
- Robert J UrickSound Propagation in the Sea36,99 €
-
-
-
Wave Propagation Analysis of Smart Nanostructures presents a mathematical framework for the wave propagation problem of small scale nanobeams and nanoplates manufactured from various materials including functionally graded composites, smart piezoelectric materials and smart magneto-electro-elastic materials.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 262
- Erscheinungstermin: 24. Juni 2024
- Englisch
- Abmessung: 254mm x 178mm
- Gewicht: 485g
- ISBN-13: 9781032839547
- ISBN-10: 1032839546
- Artikelnr.: 70441415
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 262
- Erscheinungstermin: 24. Juni 2024
- Englisch
- Abmessung: 254mm x 178mm
- Gewicht: 485g
- ISBN-13: 9781032839547
- ISBN-10: 1032839546
- Artikelnr.: 70441415
Farzad Ebrahimi is an Associate Professor in the Department of Mechanical Engineering at the Imam Khomeini International University (IKIU), Qazvin, Iran. He received his Ph.D. from the School of Mechanical Engineering of the University of Tehran at 2011. Thereafter, he joined IKIU in 2012 as an Assistant Professor and was elected as Associate Professor in 2017. His research interests include mechanics of nanostructures and nanocomposites, smart materials and structures, viscoelasticity, composite materials, functionally graded materials (FGMs), and continuum plate and shell theories. He has published more than 300 international research papers, and is the author of 2 books about smart materials; he has also edited 3 books for international publishers. Ali Dabbagh is studying for his M.Sc. in the School of Mechanical Engineering, College of Engineering, University of Tehran, Tehran, Iran. His research interests include solid mechanics, smart materials and structures, composites and nanocomposites, functionally graded materials (FGMs), nanostructures, and continuum plate and shell theories. He has published 35 international papers in his research area. He is currently working on this M.Sc. thesis, concerned with the mechanical behaviors of hybrid nanocomposite structures subjected to various static and dynamic excitations.
1. An Introduction to Wave Theory and Propagation Analysis 2. An
Introduction to Nonlocal Elasticity Theories and Scale-Dependent Analysis
in Nanostructures 3. Size-Dependent Effects on Wave Propagation in
Nanostructures 4. Wave Propagation Characteristics of Inhomogeneous
Nanostructures 5. Porosity Effects on Wave Propagation Characteristics of
Inhomogeneous Nanostructures 6. Wave Propagation Analysis of Smart
Heterogeneous Piezoelectric Nanostructures 7. Wave Dispersion
Characteristics of Magnetostrictive Nanostructures 8. Wave Propagation
Analysis of Magnetoelectroelastic Heterogeneous Nanostructures 9. Effect of
Various Resting Media on Wave Dispersion Characteristics of Smart
Nanostructures 10. Thermal Effects on Wave Propagation Characteristics of
Smart Nanostructures 11. Magnetic Field Effects on Wave Propagation
Characteristics of Smart Nanostructures 12. Conclusions
Introduction to Nonlocal Elasticity Theories and Scale-Dependent Analysis
in Nanostructures 3. Size-Dependent Effects on Wave Propagation in
Nanostructures 4. Wave Propagation Characteristics of Inhomogeneous
Nanostructures 5. Porosity Effects on Wave Propagation Characteristics of
Inhomogeneous Nanostructures 6. Wave Propagation Analysis of Smart
Heterogeneous Piezoelectric Nanostructures 7. Wave Dispersion
Characteristics of Magnetostrictive Nanostructures 8. Wave Propagation
Analysis of Magnetoelectroelastic Heterogeneous Nanostructures 9. Effect of
Various Resting Media on Wave Dispersion Characteristics of Smart
Nanostructures 10. Thermal Effects on Wave Propagation Characteristics of
Smart Nanostructures 11. Magnetic Field Effects on Wave Propagation
Characteristics of Smart Nanostructures 12. Conclusions
1. An Introduction to Wave Theory and Propagation Analysis 2. An
Introduction to Nonlocal Elasticity Theories and Scale-Dependent Analysis
in Nanostructures 3. Size-Dependent Effects on Wave Propagation in
Nanostructures 4. Wave Propagation Characteristics of Inhomogeneous
Nanostructures 5. Porosity Effects on Wave Propagation Characteristics of
Inhomogeneous Nanostructures 6. Wave Propagation Analysis of Smart
Heterogeneous Piezoelectric Nanostructures 7. Wave Dispersion
Characteristics of Magnetostrictive Nanostructures 8. Wave Propagation
Analysis of Magnetoelectroelastic Heterogeneous Nanostructures 9. Effect of
Various Resting Media on Wave Dispersion Characteristics of Smart
Nanostructures 10. Thermal Effects on Wave Propagation Characteristics of
Smart Nanostructures 11. Magnetic Field Effects on Wave Propagation
Characteristics of Smart Nanostructures 12. Conclusions
Introduction to Nonlocal Elasticity Theories and Scale-Dependent Analysis
in Nanostructures 3. Size-Dependent Effects on Wave Propagation in
Nanostructures 4. Wave Propagation Characteristics of Inhomogeneous
Nanostructures 5. Porosity Effects on Wave Propagation Characteristics of
Inhomogeneous Nanostructures 6. Wave Propagation Analysis of Smart
Heterogeneous Piezoelectric Nanostructures 7. Wave Dispersion
Characteristics of Magnetostrictive Nanostructures 8. Wave Propagation
Analysis of Magnetoelectroelastic Heterogeneous Nanostructures 9. Effect of
Various Resting Media on Wave Dispersion Characteristics of Smart
Nanostructures 10. Thermal Effects on Wave Propagation Characteristics of
Smart Nanostructures 11. Magnetic Field Effects on Wave Propagation
Characteristics of Smart Nanostructures 12. Conclusions