Resistivity recovery in Fe and FeCr alloys /

Resistivity recovery in Fe and FeCr alloys /

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Bibliographic Details
Author / Creator:Gómez-Ferrer, Begoña, author.
Imprint:Switzerland : Springer, ©2016.
Description:1 online resource
Language:English
Series:SpringerBriefs in applied sciences and technology, 2191-530X
SpringerBriefs in applied sciences and technology.
Subject:
Iron -- Electric properties.
Iron alloys -- Electric properties.
Iron.
Iron alloys -- Electrometallurgy.
Iron -- Electrometallurgy.
Materials science.
Metals.
Nuclear energy.
Solid state physics.
Electronic books.
Format: E-Resource Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/11267270
Hidden Bibliographic Details
ISBN:9783319388571
3319388576
9783319388564
3319388568
Digital file characteristics:text file PDF
Notes:Includes bibliographical references and index.
Print version record.
Summary:This book covers the Resistivity Recovery (RR) technique, underlying its physical principles, performance and problematic. A concise review on the state of the art is provided, showing the advances in radiation modelling, linking both experimental and theoretical fields. The reader will find a data compilation and comparison of up-to-date results obtained from the European Fusion Development Agreement model alloys.
Other form:Print version: 9783319388564 3319388568
Standard no.:10.1007/978-3-319-38857-1
Table of Contents:
  • Acknowledgments; Contents; Abbreviations, Acronyms and Signs; List of Figures; List of Tables; Abstract; 1 Thermonuclear Fusion; Abstract; 1.1 The Green Solution; 1.2 Materials Problem in Fusion Reactors; 1.3 Modelling and Experimental Validation; 1.4 Interest of Fe-Cr Alloys; References; 2 Resistivity and Experimental Techniques; Abstract; 2.1 Resistivity Basics; 2.1.1 Electronic Band Structures; 2.1.2 Quantum Drude Model; 2.1.3 Matthiessen's Rule; 2.1.4 SRO Effects; 2.1.5 Non-Simple Metals: The S-P Interaction.
  • 2.1.6 Magnetic Effects and Deviations from Matthiessen's Rule: The Two-current Model2.2 Radiation Effects on Resistivity; 2.3 Annealing Theory; 2.3.1 Defect Diffusion; 2.3.2 Rate Theory; 2.4 Resistivity Recovery Method; 2.5 Improved RR Method; References; 3 Experimental on Resistivity; Abstract; 3.1 Four-point Probe Method: VdP Technique; 3.2 Low-Voltage Measurement Technique: Delta Method; 3.3 System Requirements; 3.4 Sample Preparation; 3.5 Setup; 3.6 Resistivity and Temperature Measurements; References; 4 State of the Art; Abstract; 4.1 Accepted Picture in Pure Fe.
  • 4.2 Critical Review of Pure Fe Accepted Picture4.3 The Effect of Cr; 4.3.1 Stage III Evaluation by Nikolaev; 4.4 The Contribution of Modelling; References; 5 RR in Fe and FeCr Alloys; Abstract; 5.1 Fe-Cr Residual Resistivity Characterization; 5.2 Defect Production by Electrons, Neutrons, and Protons; 5.3 Samples and Irradiation Runs: Effects of CCr; 5.4 RR Result in Pure Fe; 5.5 RR Results in Fe-Cr; 5.5.1 The Effect of CCr on Classical RR Results; 5.5.2 The Effect of Improved RR Method; 5.5.3 Final Discussion; 5.5.4 Comparisons with the Literature; References; 6 Outlook; Appendix A.
  • Outline placeholderAnalytical Expression of the Resistivity in Non-Simple Alloys; Appendix B; References; Index.

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