Mechanics of smart magneto-electro-elastic nanostructures Books

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Mechanics of Smart Magneto electro elastic Nanostructures


Mechanics of Smart Magneto electro elastic Nanostructures
  • Author : Farzad Ebrahimi
  • Publisher : Woodhead Publishing
  • Release : 2021-06-25
  • ISBN : 9780128231661
  • Language : En, Es, Fr & De
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Mechanics of Smart Magneto-electro-elastic Nanostructures provides mathematical models for buckling and vibration analysis of flexoelectric and magneto-electro-elastic nanostructures under thermal environment effects. Analytical results are presented in each chapter based on changes in different parameters, including various electric and magnetic potential, non-local parameters or different boundary conditions and their effects on vibration and buckling behavior on nanobeams and nanoplates. Key characteristics of smart materials and their response to external factors are presented, including size-dependency of nanostructures, effect of various gradient indexes, thermal environment effects, and effects of elastic foundation. Reviews vibration and buckling models of the responses of smart magneto-electro-elastic materials Addresses thermal environment and elastic foundation effects of magneto-electro-elastic materials Introduces piezoelectricity, flexoelectricity and magneto-electro-elasticity

Mechanics of Smart Magneto electro elastic Nanostructures


Mechanics of Smart Magneto electro elastic Nanostructures
  • Author : Farzad Ebrahimi
  • Publisher : Elsevier
  • Release : 2021-07-09
  • ISBN : 9780128196533
  • Language : En, Es, Fr & De
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Mechanics of Smart Magneto-electro-elastic Nanostructures provides mathematical models for buckling and vibration analysis of flexoelectric and magneto-electro-elastic nanostructures under thermal environment effects. Analytical results are presented in each chapter based on changes in different parameters, including various electric and magnetic potential, non-local parameters or different boundary conditions and their effects on vibration and buckling behavior on nanobeams and nanoplates. Key characteristics of smart materials and their response to external factors are presented, including size-dependency of nanostructures, effect of various gradient indexes, thermal environment effects, and effects of elastic foundation. Reviews vibration and buckling models of the responses of smart magneto-electro-elastic materials Addresses thermal environment and elastic foundation effects of magneto-electro-elastic materials Introduces piezoelectricity, flexoelectricity and magneto-electro-elasticity

Wave Propagation Analysis of Smart Nanostructures


Wave Propagation Analysis of Smart Nanostructures
  • Author : Farzad Ebrahimi
  • Publisher : CRC Press
  • Release : 2019-12-20
  • ISBN : 9781000760545
  • Language : En, Es, Fr & De
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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, smart magneto-electro-elastic materials, smart magnetostrictive materials, and porous materials. In this book, both classical and refined higher-order shear deformation beam and plate hypotheses are employed to formulate the wave propagation problem using the well-known Hamilton’s principle. Additionally, the influences of small-scale nanobeams on the mechanical behaviors of nanostructures are covered using both nonlocal elasticity and nonlocal strain gradient elasticity theories. Impacts of various terms, such as elastic springs of elastic foundation, damping coefficient of viscoelastic substrate, different types of temperature change, applied electric voltage and magnetic potential, and intensity of an external magnetic field on the dispersion curves of nanostructures, are included in the framework of numerous examples.

Wave Propagation Analysis of Smart Nanostructures


Wave Propagation Analysis of Smart Nanostructures
  • Author : Farzad Ebrahimi
  • Publisher : CRC Press
  • Release : 2019-12
  • ISBN : 0429279221
  • Language : En, Es, Fr & De
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"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, smart magneto-electro-elastic materials, smart magnetostrictive materials, porous materials, and magnetostrictive materials. In this book, both classical and refined higher-order shear deformation beam and plate hypotheses will be employed to formulate the wave propagation problem using the well-known Hamilton's principle. Besides, the influences of small scale on the mechanical behaviors of the nanostructures will be covered using both nonlocal elasticity and nonlocal strain gradient elasticity theories. Impacts of various terms such as elastic springs of elastic foundation, damping coefficient of viscoelastic substrate, different types of temperature change, applied electric voltage and magnetic potential, and intensity of an external magnetic field on the dispersion curves of nanostructures will be included in this book in the framework of numerical examples"--

Static Green s Functions in Anisotropic Media


Static Green s Functions in Anisotropic Media
  • Author : Ernian Pan
  • Publisher : Cambridge University Press
  • Release : 2015-04-30
  • ISBN : 9781107034808
  • Language : En, Es, Fr & De
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This book presents basic theory on static Green's functions in general anisotropic magnetoelectroelastic media including detailed derivations based on the complex variable method, potential method, and integral transforms. Green's functions corresponding to the reduced cases are also presented including those in anisotropic and transversely isotropic piezoelectric and piezomagnetic media, and in purely anisotropic elastic, transversely isotropic elastic and isotropic elastic media. Problems include those in three-dimensional, (two-dimensional) infinite, half, and biomaterial spaces (planes). While the emphasis is on the Green's functions related to the line and point force, those corresponding to the important line and point dislocation are also provided and discussed. This book provides a comprehensive derivation and collection of the Green's functions in the concerned media, and as such, it is an ideal reference book for researchers and engineers, and a textbook for both students in engineering and applied mathematics.