Deformation mechanisms in nanocrystalline palladium at large strains

The mechanical behaviour and microstructure evolution of nanocrystalline palladium was investigated. Material with an initial grain size ∼10 nm was prepared by inert gas condensation. Instrumented high-pressure torsion straining was used to characterize the flow stress during plastic deformation to...

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Published inActa materialia Vol. 57; no. 11; pp. 3391 - 3401
Main Authors Ivanisenko, Yu, Kurmanaeva, L., Weissmueller, J., Yang, K., Markmann, J., Rösner, H., Scherer, T., Fecht, H.-J.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.06.2009
Elsevier
Subjects
Applied sciences
Dislocation slip
Exact sciences and technology
High-pressure torsion
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
Nanocrystalline
Plasticity
Twinning
Twinning
Dislocation slip
Plasticity
High-pressure torsion
Nanocrystalline
Deformation
Slip
Mechanical properties
Palladium
Mechanism
Dislocation
Torsion
Nanocrystal
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Abstract The mechanical behaviour and microstructure evolution of nanocrystalline palladium was investigated. Material with an initial grain size ∼10 nm was prepared by inert gas condensation. Instrumented high-pressure torsion straining was used to characterize the flow stress during plastic deformation to shear strains up to 300. A change in primary deformation mechanism was induced by stress-induced grain growth. For grain sizes <40 nm, grain boundary mediated processes (shear banding, grain boundary sliding and grain rotation) controlled the deformation, with dislocation slip, twinning, and grain boundary diffusion providing the accommodation. For larger grain sizes, the operative deformation mechanism was dislocation slip.
AbstractList The mechanical behaviour and microstructure evolution of nanocrystalline palladium was investigated. Material with an initial grain size ~10nm was prepared by inert gas condensation. Instrumented high-pressure torsion straining was used to characterize the flow stress during plastic deformation to shear strains up to 300. A change in primary deformation mechanism was induced by stress-induced grain growth. For grain sizes < 40nm, grain boundary mediated processes (shear banding, grain boundary sliding and grain rotation) controlled the deformation, with dislocation slip, twinning, and grain boundary diffusion providing the accommodation. For larger grain sizes, the operative deformation mechanism was dislocation slip.
The mechanical behaviour and microstructure evolution of nanocrystalline palladium was investigated. Material with an initial grain size ∼10 nm was prepared by inert gas condensation. Instrumented high-pressure torsion straining was used to characterize the flow stress during plastic deformation to shear strains up to 300. A change in primary deformation mechanism was induced by stress-induced grain growth. For grain sizes <40 nm, grain boundary mediated processes (shear banding, grain boundary sliding and grain rotation) controlled the deformation, with dislocation slip, twinning, and grain boundary diffusion providing the accommodation. For larger grain sizes, the operative deformation mechanism was dislocation slip.
Author Markmann, J.
Ivanisenko, Yu
Yang, K.
Fecht, H.-J.
Kurmanaeva, L.
Rösner, H.
Scherer, T.
Weissmueller, J.
Author_xml – sequence: 1
  givenname: Yu
  surname: Ivanisenko
  fullname: Ivanisenko, Yu
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  organization: Institute of Nanotechnology, Forschungszentrum Karlsruhe, P.O. Box 3640, 76021 Karlsruhe, Germany
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  surname: Kurmanaeva
  fullname: Kurmanaeva, L.
  organization: Institute of Nanotechnology, Forschungszentrum Karlsruhe, P.O. Box 3640, 76021 Karlsruhe, Germany
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  givenname: J.
  surname: Weissmueller
  fullname: Weissmueller, J.
  organization: Institute of Nanotechnology, Forschungszentrum Karlsruhe, P.O. Box 3640, 76021 Karlsruhe, Germany
– sequence: 4
  givenname: K.
  surname: Yang
  fullname: Yang, K.
  organization: Institute of Micro and Nanomaterials, University of Ulm, Albert-Einstein-Allee 47, 89091 Ulm, Germany
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  givenname: J.
  surname: Markmann
  fullname: Markmann, J.
  organization: Universität des Saarlandes, Technische Physik, 66041 Saarbrücken, Germany
– sequence: 6
  givenname: H.
  surname: Rösner
  fullname: Rösner, H.
  organization: Institut für Materialphysik, Westfälische Wilhelms-Universität Münster, Wilhelm-Klemm-Str. 10, 48149 Münster, Germany
– sequence: 7
  givenname: T.
  surname: Scherer
  fullname: Scherer, T.
  organization: Institute of Nanotechnology, Forschungszentrum Karlsruhe, P.O. Box 3640, 76021 Karlsruhe, Germany
– sequence: 8
  givenname: H.-J.
  surname: Fecht
  fullname: Fecht, H.-J.
  organization: Institute of Nanotechnology, Forschungszentrum Karlsruhe, P.O. Box 3640, 76021 Karlsruhe, Germany
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Issue 11
Keywords Twinning
Dislocation slip
Plasticity
High-pressure torsion
Nanocrystalline
Deformation
Slip
Mechanical properties
Palladium
Mechanism
Dislocation
Torsion
Nanocrystal
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Snippet The mechanical behaviour and microstructure evolution of nanocrystalline palladium was investigated. Material with an initial grain size ∼10 nm was prepared by...
The mechanical behaviour and microstructure evolution of nanocrystalline palladium was investigated. Material with an initial grain size ~10nm was prepared by...
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SubjectTerms Applied sciences
Dislocation slip
Exact sciences and technology
High-pressure torsion
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
Nanocrystalline
Plasticity
Twinning
Title Deformation mechanisms in nanocrystalline palladium at large strains
URI https://dx.doi.org/10.1016/j.actamat.2009.03.049
https://search.proquest.com/docview/34408856
https://search.proquest.com/docview/903626108
Volume 57
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