01056nam0-2200337---450-99000975569040332120130730094112.03825314359000975569FED01000975569(Aleph)000975569FED0100097556920130729d2003----km-y0itay50------bagerDEabe-ac--001yyHandbuch des mykenischen GriechischAntonin BartonĕkHeidelbergC. Winter©2003676 p.ill. in b. e n.25 cmRilegato con copertina rigidaIndice alfabetico degli appellativi micenei a pag. 533Bibliografia a p. 621Lingua greca miceneaScrittura lineare B487.121Bartonek,Antonín391864ITUNINARICAUNIMARCBK990009755690403321P2B-210-BARTONÉK A.-2003Dip.Disc.st. 13414FLFBCFLFBCHandbuch des mykenischen Griechisch834241UNINA02068nam 2200445z- 450 991050430720332120211014(CKB)5590000000629399(oapen)https://directory.doabooks.org/handle/20.500.12854/72269(oapen)doab72269(EXLCZ)99559000000062939920202110d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierPhase-field Modeling of Phase Changes and Mechanical Stresses in Electrode Particles of Secondary BatteriesKarlsruheKIT Scientific Publishing20211 online resource (224 p.)Schriftenreihe des Instituts für Angewandte Materialien, Karlsruher Institut für Technologie3-7315-1002-2 Most storage materials exhibit phase changes, which cause stresses and, thus, lead to damage of the electrode particles. In this work, a phase-field model for the cathode material NaxFePO4 of Na-ion batteries is studied to understand phase changes and stress evolution. Furthermore, we study the particle size and SOC dependent miscibility gap of the nanoscale insertion materials. Finally, we introduce the nonlocal species concentration theory, and show how the nonlocality influences the results.Mechanical engineering & materialsbicsscEndliche VerformungselastizitätFinite deformation elasticityNichtlokalitätNonlocalityPhase segregationPhase-field approachPhasenfeldansatzPhasentrennungSecondary batteriesSekundärbatterienMechanical engineering & materialsZhang Taoauth1272789BOOK9910504307203321Phase-field Modeling of Phase Changes and Mechanical Stresses in Electrode Particles of Secondary Batteries3018764UNINA