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Microstructural stability of nanostructured fcc metals during cyclic deformation and fatigue

Dissertationsschrift (Sprache: Englisch)
Autor: Matthias Friedrich Funk

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Microstructural stability of nanostructured fcc metals during cyclic deformation and fatigue, Matthias Friedrich Funk
 
Nanostructured metals with maximal grain or twin sizes of less than 100 nm have advanced properties like increased strength. As beneficial as these microstructures can be for the strength of materials, they are not infinitely stable. During mechanical...
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Nanostructured metals with maximal grain or twin sizes of less than 100 nm have advanced properties like increased strength. As beneficial as these microstructures can be for the strength of materials, they are not infinitely stable. During mechanical loading these metals tend to coarsen and lose their beneficial structure. Besides electron microscopic analysis of fatigued samples, in situ cycling tests were conducted in order to observe structural degradation during mechanical loading.
Klappentext zu „Microstructural stability of nanostructured fcc metals during cyclic deformation and fatigue “
Nanostructured metals with maximal grain or twin sizes of less than 100 nm have advanced properties like increased strength. As beneficial as these microstructures can be for the strength of materials, they are not infinitely stable. During mechanical loading these metals tend to coarsen and lose their beneficial structure. Besides electron microscopic analysis of fatigued samples, in situ cycling tests were conducted in order to observe structural degradation during mechanical loading.
Bibliographische Angaben
  • Autor: Matthias Friedrich Funk
  • 2012, XIV, 206 Seiten, mit Abbildungen, Masse: 14,8 x 21 cm, Kartoniert (TB), Englisch
  • Verlag: KIT Scientific Publishing
  • ISBN-10: 3866449186
  • ISBN-13: 9783866449183
Sprache:
Englisch
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