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  • Experiments were conducted to evaluate creep behavior of conventional and ultrafinegrained metallic materials using nanoindentation technique. The polished surface of samples was loaded up to 5 mN. The load was held constant to examine the creep behavior. Nanoindentation tests were performed at room temperature. Strain rate was evaluated from load and displacement data. The stress exponents of strain rates n were determined from loading stress dependences of creep rate. The values of stress exponents of the indentation strain rate indicate that creep behavior of investigated materials is influenced in particular by slip of intragranular dislocations. By contrast, deformation mechanisms like grain boundary sliding and diffusion processes seem to be improbable.
  • Experiments were conducted to evaluate creep behavior of conventional and ultrafinegrained metallic materials using nanoindentation technique. The polished surface of samples was loaded up to 5 mN. The load was held constant to examine the creep behavior. Nanoindentation tests were performed at room temperature. Strain rate was evaluated from load and displacement data. The stress exponents of strain rates n were determined from loading stress dependences of creep rate. The values of stress exponents of the indentation strain rate indicate that creep behavior of investigated materials is influenced in particular by slip of intragranular dislocations. By contrast, deformation mechanisms like grain boundary sliding and diffusion processes seem to be improbable. (en)
Title
  • Constant Load Testing of Materials using Nanoindentation Technique
  • Constant Load Testing of Materials using Nanoindentation Technique (en)
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  • Constant Load Testing of Materials using Nanoindentation Technique
  • Constant Load Testing of Materials using Nanoindentation Technique (en)
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  • RIV/68407700:21220/14:00214356!RIV15-TA0-21220___
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  • RIV/68407700:21220/14:00214356
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  • nanoindentation creep; metallic materials; ultrafine-grained microstructure (en)
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  • CH - Švýcarská konfederace
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  • [4CAE127A0D3C]
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  • 606
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  • Lukeš, Jaroslav
  • Dvorak, J.
  • Kral, P.
  • Kvapilova, M.
  • Sklenicka, V.
issn
  • 1013-9826
number of pages
http://bibframe.org/vocab/doi
  • 10.4028/www.scientific.net/KEM.606.69
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  • 21220
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