05662nam 2200757 a 450 99621471060331620230721023356.01-280-84760-397866108476000-470-61079-40-470-39344-01-84704-675-4(CKB)1000000000821520(EBL)700694(OCoLC)769341512(SSID)ssj0000305569(PQKBManifestationID)11247054(PQKBTitleCode)TC0000305569(PQKBWorkID)10305660(PQKB)11021317(MiAaPQ)EBC700694(MiAaPQ)EBC289067(Au-PeEL)EBL289067(OCoLC)630529227(EXLCZ)99100000000082152020070406d2007 uy 0engur|n|---|||||txtccrParticle and continuum aspects of mesomechanics[electronic resource] /edited by George C. Sih, Moussa Nait-Abdelaziz, Toan Vu-KhanhLondon ;Newport Beach, CA ISTEc20071 online resource (837 p.)ISTE ;v.2Description based upon print version of record.1-84704-025-X Includes bibliographical references and index.Particle and Continuum Aspects of Mesomechanics; Table of contents; Section I: Physical Mechanisms of Multiple Damage; Multiple hierarchical scale-dependency on physical mechanisms of material damage: macromechanical, microstructural and nanochemical; Surface layers and inner interfaces as functional subsystems of solid; Microstructural evolution in dual-phase steels at high strain-rates; Plastic deformation in single cryctal Ni3Fe (thin and thick plates); Mechanisms of physical aging in polypropylene; Section II: Physica1, Mesoscopical and Multiscale ModelsFinite element homogeneization for the determination of the RVE size for elastoviscoplastic Polycrystalline MaterialsAn incremental energy based fatigue life calculations method for metallic structures under multiaxial amplitude loadings; Meso/micro fatigue crack growth involving crystal structure and crack geometry; Development of a nonlinear homogeneization method: evaluation and application to a rubber-reinforced material; Cavitation of rubber toughened polymer: numerical and experimental investigation; Ductile damage by interface decohesionA multiscale discussion of fatigue and shakedown for notched structuresTwo scale approach for the defect tolerance fatigue design of automotive components; Section III: Film, Layer and Interface; Plastic deformation and fracture of thin metallic films on annealing in terms of the multilevel model of a deformed solid; Mesoscopic model for electroactive Composite Films and its applications; Interfaces of one-way glasslepoxy composite in inflexion; Point defects of the elastic properties of layered structured nano-materials; DFT study of interactions of water on Kaolinte and Goethite surfacesNanolayered MAX phases from ab initio calculationsSection IV: Crack Models and Solutions; Fracture initiation at re-entrant corners: experiments and finite fracture mechanics predictions; Buckling analysis of cracked columns subjected to lateral loads; Micro-cavity effect on the plastic zone size ahead of the crack tip in confined plasticity; Effect of microcrack on plastic zone size ahead of main crack in small-scale plasticity; Stress intensity factor of surface and interface cracks in coating/substrate system; T-stress by stress difference method (SDM)Elasto-inelastic self-consistent model of ellipsoidal inclusionCrack propagation in solid oxide fuel cells; Elastoplastic solution for an eccentric crack loaded by two pairs of point tensile forces; J-integral and CMOD for cracked cylinders; Oscillating contact of isotropic elastic half-spaces; Section V: Nanomaterials; Mechanical properties of thin pulsed laser deposited amorphous carbons and amorphous carbon/silver nanocomposites; Extension of the Hertz model for accounting to surface tension in nano-indentation tests of soft materialsMulti-scale modeling of tensile behavior of carbon nanotube-reinforced compositesThis title brings together a variety of papers presented at the 9th annual Meso meeting in 2007. The topics selected for Meso 2007 are designed to illustrate the relation of thresholds to multiscaling:Flow through capillary tubes in contrast to pipesLaminar and turbulent flow transitionHeat convection of thin wires in contrast to cylindersElectrical conductance of macro- and nano-circuitsRubbery and glassy polymersSingle- and poly-crystal behaviorStrength of wires and round cylindrical barsUni-axial and multi-axial material: linear and non-linear response<liISTEFracture mechanicsCongressesContinuum mechanicsCongressesMicrostructureCongressesMicromechanicsMathematical modelsCongressesFracture mechanicsContinuum mechanicsMicrostructureMicromechanicsMathematical models620.1/1292620.11292Sih G. C(George C.)43033Nait-Abdelaziz Moussa927344Vu-Khanh Toan927345MiAaPQMiAaPQMiAaPQBOOK996214710603316Particle and continuum aspects of mesomechanics2083569UNISA04612oam 22007095 450 991078121250332120231218212917.01-283-15249-597866131524971-4008-3924-610.1515/9781400839247(CKB)2550000000039996(EBL)726050(OCoLC)735599308(SSID)ssj0000526560(PQKBManifestationID)11348150(PQKBTitleCode)TC0000526560(PQKBWorkID)10521894(PQKB)11506690(DE-B1597)453729(OCoLC)979749812(DE-B1597)9781400839247(MiAaPQ)EBC726050(EXLCZ)99255000000003999620190708d2010 fy 0engur|n|---|||||txtrdacontentcrdamediacrrdacarrierWho owns antiquity? museums and the battle over our ancient heritage /James CunoWith a New afterword by the authorPrinceton, N.J. :Princeton University Press,[2010]©20111 online resource (288 pages) illustrationsDescription based upon print version of record.0-691-14810-4 Frontmatter --Contents --Preface --Introduction: The Crux of the Matter --One. Political Matters --Two. More Political Matters --Three. The Turkish Question --Four. The Chinese Question --Five. Identity Matters --Epilogue --Afterword to the Paperback Edition --Notes --Select Bibliography --IndexWhether antiquities should be returned to the countries where they were found is one of the most urgent and controversial issues in the art world today, and it has pitted museums, private collectors, and dealers against source countries, archaeologists, and academics. Maintaining that the acquisition of undocumented antiquities by museums encourages the looting of archaeological sites, countries such as Italy, Greece, Egypt, Turkey, and China have claimed ancient artifacts as state property, called for their return from museums around the world, and passed laws against their future export. But in Who Owns Antiquity?, one of the world's leading museum directors vigorously challenges this nationalistic position, arguing that it is damaging and often disingenuous. "Antiquities," James Cuno argues, "are the cultural property of all humankind," "evidence of the world's ancient past and not that of a particular modern nation. They comprise antiquity, and antiquity knows no borders." Cuno argues that nationalistic retention and reclamation policies impede common access to this common heritage and encourage a dubious and dangerous politicization of antiquities--and of culture itself. Antiquities need to be protected from looting but also from nationalistic identity politics. To do this, Cuno calls for measures to broaden rather than restrict international access to antiquities. He advocates restoration of the system under which source countries would share newly discovered artifacts in exchange for archaeological help, and he argues that museums should again be allowed reasonable ways to acquire undocumented antiquities. Cuno explains how partage broadened access to our ancient heritage and helped create national museums in Cairo, Baghdad, and Kabul. The first extended defense of the side of museums in the struggle over antiquities, Who Owns Antiquity? is sure to be as important as it is controversial.Some images inside the book are unavailable due to digital copyright restrictions.AntiquitiesCollection and preservationPhilosophyCultural propertyRepatriationCultural propertyMuseumsAcquisitionsPhilosophyMuseumsCollection managementInternational cooperationHistory & ArchaeologyHILCCArchaeologyHILCCAntiquitiesCollection and preservationPhilosophy.Cultural propertyRepatriation.Cultural property.MuseumsAcquisitionsPhilosophy.MuseumsCollection managementInternational cooperation.History & ArchaeologyArchaeology930.1074NF 1120rvkCuno James B.328942DE-B1597DE-B1597BOOK9910781212503321Who owns antiquity834240UNINA