Wave Dynamics, Mechanics and Physics of Microstructured Metamaterials

Theoretical and Experimental Methods

Nonfiction, Science & Nature, Technology, Nanotechnology, Material Science
Cover of the book Wave Dynamics, Mechanics and Physics of Microstructured Metamaterials by , Springer International Publishing
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Author: ISBN: 9783030174705
Publisher: Springer International Publishing Publication: May 17, 2019
Imprint: Springer Language: English
Author:
ISBN: 9783030174705
Publisher: Springer International Publishing
Publication: May 17, 2019
Imprint: Springer
Language: English

This book addresses theoretical and experimental methods for exploring microstructured metamaterials, with a special focus on wave dynamics, mechanics, and related physical properties. The authors use various mathematical and physical approaches to examine the mechanical properties inherent to particular types of metamaterials. These include: 

• Boundary value problems in reduced strain gradient elasticity for composite fiber-reinforced metamaterials 

• Self-organization of molecules in ferroelectric thin films 

• Combined models for surface layers of nanostructures 

• Computer simulation at the micro- and nanoscale 

• Surface effects with anisotropic properties and imperfect temperature contacts 

• Inhomogeneous anisotropic metamaterials with uncoupled and coupled surfaces or interfaces 

• Special interface finite elements and other numerical and analytical methods for composite structures 

View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

This book addresses theoretical and experimental methods for exploring microstructured metamaterials, with a special focus on wave dynamics, mechanics, and related physical properties. The authors use various mathematical and physical approaches to examine the mechanical properties inherent to particular types of metamaterials. These include: 

• Boundary value problems in reduced strain gradient elasticity for composite fiber-reinforced metamaterials 

• Self-organization of molecules in ferroelectric thin films 

• Combined models for surface layers of nanostructures 

• Computer simulation at the micro- and nanoscale 

• Surface effects with anisotropic properties and imperfect temperature contacts 

• Inhomogeneous anisotropic metamaterials with uncoupled and coupled surfaces or interfaces 

• Special interface finite elements and other numerical and analytical methods for composite structures 

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