Dilatometry: a powerful tool for the study of defects in ultrafine-grained metals

Dilatometry: a powerful tool for the study of defects in ultrafine-grained metals

Vacancies, dislocations, and interfaces are structural defects that are deliberately introduced into solids during grain refinement processes based on severe plastic deformation (SPD). Specific combinations of these defects determine the improved mechanical properties of the obtained ultrafine-grain...

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Veröffentlicht in:Journal of materials science 2012-11, Vol.47 (22), p.7921-7925
Hauptverfasser: Sprengel, W., Oberdorfer, B., Steyskal, E.-M., Würschum, R.
Format: Artikel
Sprache:eng
Schlagworte:
Annealing
Body centered cubic lattice
Characterization and Evaluation of Materials
Chemistry and Materials Science
Classical Mechanics
Crystal defects
Crystallography and Scattering Methods
Defect annealing
Defects
Dilatometry
Dislocations
Face centered cubic lattice
Grain boundaries
Grain refinement
Materials Science
Mechanical properties
Plastic deformation
Polymer Sciences
Solid Mechanics
Ultrafine Grained Materials
Ultrafines
Vacancies
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Beschreibung
Zusammenfassung:Vacancies, dislocations, and interfaces are structural defects that are deliberately introduced into solids during grain refinement processes based on severe plastic deformation (SPD). Specific combinations of these defects determine the improved mechanical properties of the obtained ultrafine-grained materials. High-precision, non-equilibrium dilatometry, i.e., measurement of the irreversible macroscopic length change upon defect annealing, provides a powerful technique for the characterization and the study of the kinetics of these defects. It is applied to determine absolute concentrations of vacancies, to characterize dislocation processes, and to assess grain boundary excess volume in pure, FCC and BCC ultrafine-grained metals processed by SPD.
ISSN:0022-2461
1573-4803
DOI:10.1007/s10853-012-6460-9