01873nam0 22003973i 450 UFI060880220231121125909.0978225100587420141124d2014 ||||0itac50 bagrcfrefrz01i xxxe z01nDiscours et fragmentsProcope de Gazatexte établi, introduit et commenté par Eugenio Amato avec la collaboration de Aldo Corcella et Gianluca Ventrellatraduit par Pierre MaréchauxParisLes belles Lettres2014CIX, 617 p. (doppie 42-56, 90-105, 138-145, 190-210, 230-231, 282-305, 340-341, 403-411, 458-464, 480-484, 498-512)ill.20 cmCollection des universités de France. Sér. grecque503Testo francese a fronte001BVE00494782001 Collection des universités de France. Sér. grecque503Procopius : GazaeusMILV025456070186433Corcella, AldoCFIV015886Amato, Eugenio <1974- >CFIV152243Ventrella, GianlucaMODV641221Marechaux, PierrePUVV197307730Procopio : di GazaMILV130038Procopius : GazaeusProkop : von GazaSBNV096825Procopius : GazaeusProcope : de GazaSBNV096826Procopius : GazaeusITIT-0120141124IT-RM028 IT-FR0017 Biblioteca Universitaria AlessandrinaRM028 Biblioteca umanistica Giorgio ApreaFR0017 NUFI0608802Biblioteca umanistica Giorgio Aprea 52BLL Proc.Gaz.1 52DUS0000001375 VMN RS FAR 2013 - prof. MorelliC 2014112420141124 01 52Discours et fragments259468UNICAS04847nam 2200661 450 991083005990332120230807213508.01-118-83808-41-118-83807-61-118-83809-2(CKB)3780000000096198(EBL)4519162(SSID)ssj0001600640(PQKBManifestationID)16308136(PQKBTitleCode)TC0001600640(PQKBWorkID)14528869(PQKB)10230265(PQKBManifestationID)15588221(PQKBWorkID)12332952(PQKB)24525520(MiAaPQ)EBC4519162(DLC) 2015031015(EXLCZ)99378000000009619820160517h20152015 uy 0engur|n|---|||||txtccrElectromagneto-mechanics of material systems and structures /Yasuhide ShindoSingapore :Wiley,2015.©20151 online resource (300 p.)Description based upon print version of record.1-118-83796-7 Includes bibliographical references at the end of each chapters and index.Cover; Title Page; Copyright; Contents; About the Author; Preface; Acknowledgments; Chapter 1 Introduction; References; Chapter 2 Conducting Material Systems and Structures; 2.1 Basic Equations of Dynamic Magnetoelasticity; 2.2 Magnetoelastic Plate Vibrations and Waves; 2.2.1 Classical Plate Bending Theory; 2.2.2 Mindlin's Theory of Plate Bending; 2.2.3 Classical Plate Bending Solutions; 2.2.4 Mindlin Plate Bending Solutions; 2.2.5 Plane Strain Plate Solutions; 2.3 Dynamic Magnetoelastic Crack Mechanics; 2.4 Cracked Materials Under Electromagnetic Force; 2.5 Summary; ReferencesChapter 3 Dielectric/Ferroelectric Material Systems and Structures3.1 Basic Equations of Electroelasticity; 3.2 Static Electroelastic Crack Mechanics; 3.2.1 Infinite Dielectric Materials; 3.2.2 Dielectric Strip; 3.3 Electroelastic Vibrations and Waves; 3.4 Dynamic Electroelastic Crack Mechanics; 3.5 Summary; 3.6 Piezomechanics and Basic Equations; 3.6.1 Linear Theory; 3.6.2 Model of Polarization Switching; 3.6.3 Model of Domain Wall Motion; 3.6.4 Classical Lamination Theory; 3.7 Bending of Piezoelectric Laminates; 3.7.1 Bimorphs; 3.7.2 Functionally Graded Bimorphs; 3.7.3 Laminated Plates3.8 Electromechanical Field Concentrations3.8.1 Laminates; 3.8.2 Disk Composites; 3.8.3 Fiber Composites; 3.8.4 MEMS Mirrors; 3.9 Cryogenic and High-Temperature Electromechanical Responses; 3.9.1 Cryogenic Electromechanical Response; 3.9.2 High-Temperature Electromechanical Response; 3.10 Electric Fracture and Fatigue; 3.10.1 Fracture Mechanics Parameters; 3.10.2 Cracked Rectangular Piezoelectric Material; 3.10.3 Indentation Fracture Test; 3.10.4 Modified Small Punch Test; 3.10.5 Single-Edge Precracked Beam Test; 3.10.6 Double Torsion Test; 3.10.7 Fatigue of SEPB Specimens; 3.11 SummaryReferencesChapter 4 Ferromagnetic Material Systems and Structures; 4.1 Basic Equations of Magnetoelasticity; 4.1.1 Soft Ferromagnetic Materials; 4.1.2 Magnetically Saturated Materials; 4.1.3 Electromagnetic Materials; 4.2 Magnetoelastic Instability; 4.2.1 Buckling of Soft Ferromagnetic Material; 4.2.2 Buckling of Magnetically Saturated Material; 4.2.3 Bending of Soft Ferromagnetic Material; 4.3 Magnetoelastic Vibrations and Waves; 4.3.1 Vibrations and Waves of Soft Ferromagnetic Material; 4.3.2 Vibrations and Waves of Magnetically Saturated Material; 4.4 Magnetic Moment Intensity Factor4.4.1 Simply Supported Plate Under Static Bending4.4.2 Fixed-End Plate Under Static Bending; 4.4.3 Infinite Plate Under Dynamic Bending; 4.5 Tensile Fracture and Fatigue; 4.5.1 Cracked Rectangular Soft Ferromagnetic Material; 4.5.2 Fracture Test; 4.5.3 Fatigue Crack Growth Test; 4.6 Summary; 4.7 Basic Equations of Magnetostriction; 4.8 Nonlinear Magneto-Mechanical Response; 4.8.1 Terfenol-D/Metal Laminates; 4.8.2 Terfenol-D/PZT Laminates; 4.9 Magnetoelectric Response; 4.10 Summary; References; Index; EULAMaterialsMechanical propertiesMaterialsElectric propertiesMaterialsMagnetic propertiesElectromagnetic interactionsMaterialsMechanical properties.MaterialsElectric properties.MaterialsMagnetic properties.Electromagnetic interactions.620.1/123Shindo Yasuhide1719284MiAaPQMiAaPQMiAaPQBOOK9910830059903321Electromagneto-mechanics of material systems and structures4116979UNINA