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Introduction to Waves in Mechanical Periodic Structures and Metamaterials

Banerjee, Arnab Bera, Kamal Krishna
Innbundet / 2025 / Engelsk

Produktdetaljer

ISBN
9781032889955
Publisert
2025-11-28
Utgiver
Taylor & Francis Ltd
Høyde
234 mm
Bredde
156 mm
Aldersnivå
U, P, 05, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
296

Forfatter
Banerjee, Arnab
Bera, Kamal Krishna

Biografisk notat

Dr. Arnab Banerjee is an Associate Professor in the Civil Engineering Department, Indian Institute of Technology Delhi. His research focuses on structural dynamics, wave mechanics, and metamaterials for vibration control in infrastructure and renewable energy systems. He has pioneered work in subwavelength attenuation, active control of ultra-wide bandgaps, meta-damping, and non-reciprocal metamaterials. Dr. Banerjee's innovations have led to multiple patents and extensive publications, earning him several national and international recognitions, including the INAE Young Associate award and the Royal Society’s Newton International Fellowship.

Dr. Kamal Krishna Bera is an Assistant Professor in the Civil Engineering Department, National Institute of Technology Tiruchirappalli. His expertise spans structural dynamics, vibration control, and wind-induced instabilities, with a focus on offshore wind turbines and metamaterial-based isolation. He actively collaborates on research in periodic structures and has published widely in leading journals. Dr. Bera combines academic research with practical industry experience in structural engineering.

Introduction to Waves in Mechanical Periodic Structures and Metamaterials

Banerjee, Arnab Bera, Kamal Krishna
Innbundet / 2025 / Engelsk
Banerjee, Arnab Bera, Kamal Krishna
Innbundet / 2025 / Engelsk
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Metamaterials are artificial, engineered materials designed to manipulate wave propagation in ways not possible with conventional materials. An Introduction to Waves in Mechanical Periodic Structures and Metamaterials presents a systematic and rigorous treatment of wave propagation in periodic structures, with a particular focus on mechanical and acoustic metamaterials. The book bridges fundamental concepts and advanced topics, offering a unified framework to analyze discrete and continuous periodic systems. Key topics include:

  • Comprehensive mathematical formulation of wave propagation in solids and periodic structures
  • In-depth discussion on bandgap formation through Bragg scattering, local resonance, and inertial amplification
  • Coverage of advanced concepts such as meta-damping, non-reciprocity, active control, and nonlinear metamaterials
  • Unique focus on damping evaluation in metamaterials, critical for shock resistance and transient dynamic applications

This book serves as an accessible yet rigorous resource for senior undergraduate and graduate students in structural engineering, mechanical engineering, applied physics, and materials science, as well as for researchers seeking to deepen their understanding of wave mechanics in metamaterials.

Les mer

This book presents a systematic and rigorous treatment of wave propagation in periodic structures, with a particular focus on mechanical and acoustic metamaterials. It bridges fundamental concepts and advanced topics, offering a unified framework to analyze discrete and continuous periodic systems.

Les mer

Section I. Foundational Aspects of Waves in Metamaterials. 1. Introduction. 2. Waves in discrete 1D periodic structures. 3. Damping in 1D discrete medium. 4. Dynamic stiffness matrix for 1D continuum. 5. Band structure in 1D continuum: Transfer matrix approach. Section II. Advanced Topics. 6. Energy transportation in wave propagation. 7. Two dimensional wave propagation. 8. Active feedback controlled metamaterial. 9. Non-reciprocity in Wave Propagation. 10. Nonlinear Metamaterial.

Les mer

Relaterte produkter

Metamaterials are artificial, engineered materials designed to manipulate wave propagation in ways not possible with conventional materials. An Introduction to Waves in Mechanical Periodic Structures and Metamaterials presents a systematic and rigorous treatment of wave propagation in periodic structures, with a particular focus on mechanical and acoustic metamaterials. The book bridges fundamental concepts and advanced topics, offering a unified framework to analyze discrete and continuous periodic systems. Key topics include:

  • Comprehensive mathematical formulation of wave propagation in solids and periodic structures
  • In-depth discussion on bandgap formation through Bragg scattering, local resonance, and inertial amplification
  • Coverage of advanced concepts such as meta-damping, non-reciprocity, active control, and nonlinear metamaterials
  • Unique focus on damping evaluation in metamaterials, critical for shock resistance and transient dynamic applications

This book serves as an accessible yet rigorous resource for senior undergraduate and graduate students in structural engineering, mechanical engineering, applied physics, and materials science, as well as for researchers seeking to deepen their understanding of wave mechanics in metamaterials.

Les mer

This book presents a systematic and rigorous treatment of wave propagation in periodic structures, with a particular focus on mechanical and acoustic metamaterials. It bridges fundamental concepts and advanced topics, offering a unified framework to analyze discrete and continuous periodic systems.

Les mer

Section I. Foundational Aspects of Waves in Metamaterials. 1. Introduction. 2. Waves in discrete 1D periodic structures. 3. Damping in 1D discrete medium. 4. Dynamic stiffness matrix for 1D continuum. 5. Band structure in 1D continuum: Transfer matrix approach. Section II. Advanced Topics. 6. Energy transportation in wave propagation. 7. Two dimensional wave propagation. 8. Active feedback controlled metamaterial. 9. Non-reciprocity in Wave Propagation. 10. Nonlinear Metamaterial.

Les mer

Produktdetaljer

ISBN
9781032889955
Publisert
2025-11-28
Utgiver
Taylor & Francis Ltd
Høyde
234 mm
Bredde
156 mm
Aldersnivå
U, P, 05, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
296

Forfatter
Banerjee, Arnab
Bera, Kamal Krishna

Biografisk notat

Dr. Arnab Banerjee is an Associate Professor in the Civil Engineering Department, Indian Institute of Technology Delhi. His research focuses on structural dynamics, wave mechanics, and metamaterials for vibration control in infrastructure and renewable energy systems. He has pioneered work in subwavelength attenuation, active control of ultra-wide bandgaps, meta-damping, and non-reciprocal metamaterials. Dr. Banerjee's innovations have led to multiple patents and extensive publications, earning him several national and international recognitions, including the INAE Young Associate award and the Royal Society’s Newton International Fellowship.

Dr. Kamal Krishna Bera is an Assistant Professor in the Civil Engineering Department, National Institute of Technology Tiruchirappalli. His expertise spans structural dynamics, vibration control, and wind-induced instabilities, with a focus on offshore wind turbines and metamaterial-based isolation. He actively collaborates on research in periodic structures and has published widely in leading journals. Dr. Bera combines academic research with practical industry experience in structural engineering.

Relaterte produkter