Mechanical Relaxation of interstitials in Irradiated Metals [electronic resource] / edited by Karl-Heinz Robrock.

Contributor(s): Robrock, Karl-Heinz [editor.] | SpringerLink (Online service)Material type: TextTextSeries: Springer Tracts in Modern Physics 118 ; 118Publisher: Berlin, Heidelberg : Springer Berlin Heidelberg, 1990Description: VIII, 108 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783540461562Subject(s): Physics | Chemistry, Physical organic | Condensed matter | Surfaces (Physics) | Physics | Condensed Matter | Physical Chemistry | Characterization and Evaluation of Materials | Renewable Energy SourcesAdditional physical formats: Printed edition:: No titleDDC classification: 530.41 LOC classification: QC173.45-173.458Online resources: Click here to access online
Contents:
Theoretical Background -- Experimental Techniques -- Experimental Results for Pure Metals -- Experimental Results for Dilute Alloys -- Radiation-Induced Segregation -- Conclusions.
In: Springer eBooksSummary: Intrinsic point defects due to high energy particle irradiation are studied in terms of anelastic principles and experimental techniques. A critical assessment of available data on binding and diffusion energies of self-interstitials and self-interstitial solute atom complexes is given. New results are presented for the elastic aftereffect of self-interstitials and caging motions, i.e., localized diffusion of metallic interstitial atoms. A novel point discussed is how the design of torsion pendulum and vibrating reed devices are affected by in situ irradiations with electrons. The dynamics of elastic dipoles are outlined and supplemented by the results of computer simulations.
Item type: E-BOOKS
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Theoretical Background -- Experimental Techniques -- Experimental Results for Pure Metals -- Experimental Results for Dilute Alloys -- Radiation-Induced Segregation -- Conclusions.

Intrinsic point defects due to high energy particle irradiation are studied in terms of anelastic principles and experimental techniques. A critical assessment of available data on binding and diffusion energies of self-interstitials and self-interstitial solute atom complexes is given. New results are presented for the elastic aftereffect of self-interstitials and caging motions, i.e., localized diffusion of metallic interstitial atoms. A novel point discussed is how the design of torsion pendulum and vibrating reed devices are affected by in situ irradiations with electrons. The dynamics of elastic dipoles are outlined and supplemented by the results of computer simulations.

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