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Comprehensive Nuclear Materials

Kontakt/Bestellung
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via E-Mail:
info@digento.de  Contact/Order: info@digento.de

Hrsg. v. Rudy Konings, Todd R Allen, Roger E Stoller und Shinsuke Yamanaka

Online

Inhalt :: Content

Umfassende, interdisziplinäre Fachenzyklopädie mit über 120 ausführlichen, begutachteten Beiträgen von international führenden Wissenschaftlern und Ingenieuren zum Themenbereich Nuklearmaterial. Behandelt werden die wichtigsten Klassen von Materialien, die geeignet sind für den Einsatz im Bereich der Kernspaltung, in Kernfusionsreaktoren und Teilchenbeschleunigern sowie für die unterschiedlichsten Funktionen in Kernbrennstoffen, Moderator- und Kontrollmaterial sowie in strukturellen und funktionellen Materialien und Abfallstoffen.
Die Darstellung umfasst sowohl historische als auch zeitgenössische internationale Forschung zu nuklearen Materialien - von Actiniden bis hin zu Zirkonium-Legierungen. Der Online-Ausgabe des Nachschlagewerks liegt die 2012 erschienene, 5-bändige Printausgabe, hrsg. von Rudy Konings, Todd R Allen, Roger E Stoller und Shinsuke Yamanaka unter Mitwirkung zahlreicher Fachwissenschaftler, zugrunde.

Verlag :: Publisher

Elsevier Science

Preis :: Price

Preise auf Anfrage / Prices on request

Das Angebot richtet sich nicht an Verbraucher i. S. d. § 13 BGB und Letztverbraucher i. S. d. PAngV.

ISBN/ISSN

978-0-08-056033-5


Bestellnummer bei digento :: digento order number

10226010

Verlagsinformation :: Publisher's information

Comprehensive Nuclear Materials encapsulates a panorama of fundamental information on the vast variety of materials employed in the broad field of nuclear technology.


The work addresses, in five volumes, 3,400 pages and over 120 chapter-length articles, the full panorama of historical and contemporary international research in nuclear materials, from Actinides to Zirconium alloys, from the worlds' leading scientists and engineers. It synthesizes the most pertinent research to support the selection, assessment, validation and engineering of materials in extreme nuclear environments. The work discusses the major classes of materials suitable for usage in nuclear fission, fusion reactors and high power accelerators, and for diverse functions in fuels, cladding, moderator and control materials, structural, functional, and waste materials.

Key Features

- Critically reviews the major classes and fubctions of materials, supporting the selection, assessment, validation, and engineering of materials in extreme, nuclear environments

- Integrated with a proprietary database containing useful cross-refrenced properties on compounds and systems

- Details contemporary developments in numerical simulation, modelling, experimentation, and computational analysis for effective implementation in labs and plants

Contents

- Fundamental Properties of Defects in Metals

- Fundamental Point Defect Properties in Ceramics

- Radiation-induced effects on microstructure

- Radiation-induced effects on material properties of metals (mechanical and dimensional)

- Radiation-induced effects on material properties of ceramics: mechanical and dimensional

- The Effects of Helium on Irradiated Structural Alloys

- Radiation damage using ion beams

- The actinide elements: properties and characteristics

- Thermodynamic and thermophysical properties of the actinide oxides

- Thermodynamic and thermophysical properties of the actinide nitrides

- Thermodynamic and thermophysical properties of the actinide carbides

- Phase diagrams of actinide alloys

- The U-F system

- Zirconium alloys: properties and characteristics

- Nickel alloys: properties and characteristics

- Properties of Austenitic Stainless Steels for Nuclear Reactor Applications

- Graphite: properties and characteristics

- Neutron reflector materials (Behydrides)

- Properties and characteristics of SiC and SiC/SiC composites

- Properties and characteristics of ZrC

- Ab initio electronic structure calculations for nuclear materials

- Molecular Dynamics

- Interatomic potential development

- Primary Radiation Damage Formation

- Atomic-level level dislocation dynamics in irradiated metals

- Mean field reaction rate theory

- Kinetic Monte Carlo Simulations of Irradiation effects

- Phase Field Methods

- Dislocation Dynamics

- Computational Thermodynamics: Application to Nuclear Materials

- Radiation-induced segregation

- Properties of liquid metal coolants

- Uranium Oxide and MOX production

- Burnable poison-doped fuel

- Thermal properties of irradiated UO2 and MOX

- Radiation effects in UO2

- Fuel Performance in Light Water Reactors (Uranium oxide and MOX)

- Fission product chemistry in oxide fuels

- Fuel performance of Fast spectrum Oxide f

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