01052nam0 2200313 450 00000472520051017092103.088-200-3327-520030527d2002----km-y0itay50------baitaIT<<I >>nuovi principi PIMSPiercarlo Ceccarelli, Keith Robertsprefazione di Vittorio Merloni[Milano]Sperling & Kupfer2002cXVIII, 269 p.ill.21 cmEconomia e management0218In appendice : La struttura di PIMS per la gestione della conoscenza2001Economia e management<<La >>gestione dell'impatto sul profittoVenditeOrganizzazioneRicerche di mercato658.8Ceccarelli,Piercarlo411264Roberts,Keith63160Merloni,VittorioITUNIPARTHENOPERICAUNIMARC000004725658-N/535858NAVA120030528Nuovi principi PIMS1205967UNIPARTHENOPE00960cam2 2200253 450 E60020004596420111019143057.020090226g00009999|||||ita|0103 bagerDE<<[21-22]: >>HegelHermann GlocknerStuttgart-Bad CannstattFrommannHolzboogv.21 cm001E6002000462642001 Sämtliche Werke / Georg Wilhelm Friedrich Hegel001SOBE000188032000 <<1: >>Schwierigkeiten und Voraussetzungen der Hegelschen Philosophie / Hermann Glockner001E6002000459652000 <<[2:] >>Entwicklung und Schicksal der hegelschen Philosophie / Hermann GlocknerGlockner, HermannA600200052897070160635Glockner, HermannA600200052897070ITUNISOB20111019RICAE600200045964M 102 Monografia moderna SBNMHegel698156UNISOB04901nam 2200673 a 450 991045857030332120200520144314.01-281-18659-797866111865930-08-055549-7(CKB)1000000000383585(EBL)331921(OCoLC)162130416(SSID)ssj0000127639(PQKBManifestationID)11132157(PQKBTitleCode)TC0000127639(PQKBWorkID)10051737(PQKB)10233192(MiAaPQ)EBC331921(CaSebORM)9780123694683(PPN)178933031(Au-PeEL)EBL331921(CaPaEBR)ebr10216817(CaONFJC)MIL118659(EXLCZ)99100000000038358520070201d2007 uy 0engur|n|---|||||txtccrComputational materials engineering[electronic resource] an introduction to microstructure evolution /editors Koenraad G. F. Janssens ... [et al.]1st editionAmsterdam ;Boston Elsevier / Academic Pressc20071 online resource (359 p.)Description based upon print version of record.0-12-369468-X Includes bibliographical references and index.Front Cover; Computational Materials Engineering: An Introduction to Microstructure Evolution; Copyright Page; Table of Contents; Preface; Chapter 1. Introduction; 1.1 Microstructures Defined; 1.2 Microstructure Evolution; 1.3 Why Simulate Microstructure Evolution?; 1.4 Further Reading; Chapter 2. Thermodynamic Basis of Phase Transformations; 2.1 Reversible and Irreversible Thermodynamics; 2.2 Solution Thermodynamics; Chapter 3. Monte Carlo Potts Model; 3.1 Introduction; 3.2 Two-State Potts Model (Ising Model); 3.3 Q-State Potts Model; 3.4 Speed-Up Algorithms3.5 Applications of the Potts Model3.6 Summary; 3.7 Final Remarks; 3.8 Acknowledgments; Chapter 4. Cellular Automata; 4.1 A Definition; 4.2 A One-Dimensional Introduction; 4.3 +2D CA Modeling of Recrystallization; 4.4 +2D CA Modeling of Grain Growth; 4.5 A Mathematical Formulation of Cellular Automata; 4.6 Irregular and Shapeless Cellular Automata; 4.7 Hybrid Cellular Automata Modeling; 4.8 Lattice Gas Cellular Automata; 4.9 Network Cellular Automata-A Development for the Future?; 4.10 Further Reading; Chapter 5. Modeling Solid-State Diffusion; 5.1 Diffusion Mechanisms in Crystalline Solids5.2 Microscopic Diffusion5.3 Macroscopic Diffusion; 5.4 Numerical Solution of the Diffusion Equation; Chapter 6. Modeling Precipitation as a Sharp-Interface Phase Transformation; 6.1 Statistical Theory of Phase Transformation; 6.2 Solid-State Nucleation; 6.3 Diffusion-Controlled Precipitate Growth; 6.4 Multiparticle Precipitation Kinetics; 6.5 Comparing the Growth Kinetics of Different Models; Chapter 7. Phase-Field Modeling; 7.1 A Short Overview; 7.2 Phase-Field Model for Pure Substances; 7.3 Study Case; 7.4 Model for Multiple Components and Phases; 7.5 AcknowledgmentsChapter 8. Introduction to Discrete Dislocations Statics and Dynamics8.1 Basics of Discrete Plasticity Models; 8.2 Linear Elasticity Theory for Plasticity; 8.3 Dislocation Statics; 8.4 Dislocation Dynamics; 8.5 Kinematics of Discrete Dislocation Dynamics; 8.6 Dislocation Reactions and Annihilation; Chapter 9. Finite Elements for Mierostructure Evolution; 9.1 Fundamentals of Differential Equations; 9.2 Introduction to the Finite Element Method; 9.3 Finite Element Methods at the Meso- and Macroscale; IndexComputational Materials Engineering is an advanced introduction to the computer-aided modeling of essential material properties and behavior, including the physical, thermal and chemical parameters, as well as the mathematical tools used to perform simulations. Its emphasis will be on crystalline materials, which includes all metals. The basis of Computational Materials Engineering allows scientists and engineers to create virtual simulations of material behavior and properties, to better understand how a particular material works and performs and then use that knowledge to design improvementsCrystalsMathematical modelsMicrostructureMathematical modelsPolycrystalsMathematical modelsElectronic books.CrystalsMathematical models.MicrostructureMathematical models.PolycrystalsMathematical models.548/.7Janssens Koenraad G. F.1968-913278MiAaPQMiAaPQMiAaPQBOOK9910458570303321Computational materials engineering2045833UNINA