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|a EBLCP
|b eng
|e pn
|c EBLCP
|d OPELS
|d OCLCF
|d YDX
|d N$T
|d OCLCO
|d OCLCQ
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|a 1178712888
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|a 9780081028667
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|a 0081028660
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|z 0081028652
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|z 9780081028650
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|a (OCoLC)1178647652
|z (OCoLC)1178712888
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|a TK9185
|b .C66 2012
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|a 621.4833
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|a Comprehensive nuclear materials /
|c edited by Rudy J.M. Konings and Roger E. Stoller.
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|a 2nd ed.
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|a San Diego :
|b Elsevier,
|c 2020.
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|a 1 online resource (4871 pages)
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|a text
|b txt
|2 rdacontent
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|a computer
|b c
|2 rdamedia
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|a online resource
|b cr
|2 rdacarrier
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|a Print version record.
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|a E9780081028650v1_WEB -- Cover -- COMPREHENSIVE NUCLEAR MATERIALS -- EDITORIAL BOARD -- LIST OF CONTRIBUTORS TO VOLUME 1 -- PREFACE TO THE SECOND EDITION -- CONTENT OF ALL VOLUMES -- Fundamental Properties of Defects in Metals -- 1.01.1 Introduction -- 1.01.2 The Displacement Energy -- 1.01.3 Properties of Vacancies -- 1.01.3.1 Vacancy Formation -- 1.01.3.2 Vacancy Migration -- 1.01.3.3 Activation Volume for Self-Diffusion -- 1.01.4 Properties of Self-Interstitials -- 1.01.4.1 Atomic Structure of Self-Interstitials -- 1.01.4.2 Formation Energy of Self-Interstitials
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|a 1.01.4.3 Relaxation Volume of Self-Interstitials -- 1.01.4.4 Self-Interstitial Migration -- 1.01.5 Interaction of Point Defects With Other Strain Fields -- 1.01.5.1 The Misfit or Size Interaction -- 1.01.5.2 The Diaelastic or Modulus Interaction -- 1.01.5.3 The Image Interaction -- 1.01.6 Anisotropic Diffusion in Strained Crystals of Cubic Symmetry -- 1.01.6.1 Transition From Atomic to Continuum Diffusion -- 1.01.6.2 Stress-Induced Anisotropic Diffusion in fcc Metals -- 1.01.6.3 Diffusion in Nonuniform Stress Fields -- 1.01.7 Local Thermodynamic Equilibrium at Sinks -- 1.01.7.1 Introduction
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|a 1.01.7.2 Edge Dislocations -- 1.01.7.3 Dislocation Loops -- 1.01.7.4 Voids and Bubbles -- 1.01.7.4.1 Capillary approximation -- 1.01.7.4.2 The mechanical concept of surface stress -- 1.01.7.4.3 Surface stresses and bulk stresses for spherical cavities -- 1.01.7.4.4 Chemical potential of vacancies at cavities -- 1.01.8 Sink Strengths and Biases -- 1.01.8.1 Effective Medium Approach -- 1.01.8.2 Dislocation Sink Strength and Bias -- 1.01.8.2.1 The solution of Ham -- 1.01.8.2.2 Dislocation bias with size and modulus interactions -- 1.01.8.3 Bias of Voids and Bubbles -- 1.01.9 Conclusions and Outlook
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|a Appendix 1.01.A Elasticity Models: Defects at the Center of a Spherical Body -- 1.01.A1 An Effective Medium Approximation -- 1.01.A2 The Isotropic, Elastic Sphere With a Defect at its Center -- Appendix 1.01.B Representation of Defects by Atomic Forces and by Multipole Tensors -- 1.01.B1 Kanzaki Forces -- 1.01.B2 Volume Change From Kanzaki Forces -- 1.01.B3 Connection of Kanzaki Forces With Transformation Strains -- 1.01.B4 Multipole Tensors for a Spherical Inclusion -- 1.01.B5 Multipole Tensors for a Plate-Like Inclusion -- See also -- References
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|a Fundamental Point Defect Properties in Ceramics -- 1.02.1 Introduction -- 1.02.2 Intrinsic Point Defects in Ionic Materials -- 1.02.2.1 Point Defects Compared to Defects of Greater Spatial Extent -- 1.02.2.2 Kr�oger Vink Notation -- 1.02.2.3 Charge of Point Defects -- 1.02.2.4 Intrinsic Disorder Reactions -- 1.02.2.5 Concentration of Intrinsic Defects -- 1.02.3 Defect Reactions -- 1.02.3.1 Intrinsic Defects -- 1.02.3.2 Effect of Doping on Defect Concentrations -- 1.02.3.3 Decrease of Intrinsic Defect Concentration Through Doping -- 1.02.3.4 Defect Associations -- 1.02.3.5 Non-Stoichiometry
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|a 1.02.3.6 Peroxide Accommodated Hyper-Stoichiometry
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|a Nuclear engineering
|x Materials.
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|a G�enie nucl�eaire
|0 (CaQQLa)201-0007585
|x Mat�eriaux.
|0 (CaQQLa)201-0379329
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650 |
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|a Nuclear engineering
|x Materials
|2 fast
|0 (OCoLC)fst01040052
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|a Konings, R. J. M.,
|d 1961-
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|a Stoller, R. E.
|q (Roger E.),
|d 1951-
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776 |
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|i Print version:
|a Konings, Rudy.
|t Comprehensive Nuclear Materials.
|d San Diego : Elsevier, �2020
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|u https://sciencedirect.uam.elogim.com/science/referenceworks/9780081028667
|z Texto completo
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