About: Mechanical Properties of Low-alloyed Molybdenum Alloys in Single Crystalline Form and after Plastic Deformation Using Nano-indentation Tests     Goto   Sponge   NotDistinct   Permalink

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  • Nano-indentation methods are applied to study nano-scale material deformations and to enable accurate measurements of indentation load (P) and indentation depth (h). Mechanical properties, Young’s modulus and hardness can be obtained from nano-indentation by numerical calculations of the load-displacement curves including loading and unloading process according to Oliver-Pharr method. Another method used to measure hardness from load-depth curves is work-of-indentation method. In this article, the indentation hardness, Young’s modulus, total and plastic work of the low-alloyed molybdenum single crystals were investigated. Hardness from the Oliver and Pharr analysis and the work-of-indentation method were compared. The influence of alloying element, crystallographic orientation of single crystals and plastic deformation on these nano-scale properties was studied. The description and characterization of the observed indentation size effect through the application of the Meyer’s law was conducted and reported.
  • Nano-indentation methods are applied to study nano-scale material deformations and to enable accurate measurements of indentation load (P) and indentation depth (h). Mechanical properties, Young’s modulus and hardness can be obtained from nano-indentation by numerical calculations of the load-displacement curves including loading and unloading process according to Oliver-Pharr method. Another method used to measure hardness from load-depth curves is work-of-indentation method. In this article, the indentation hardness, Young’s modulus, total and plastic work of the low-alloyed molybdenum single crystals were investigated. Hardness from the Oliver and Pharr analysis and the work-of-indentation method were compared. The influence of alloying element, crystallographic orientation of single crystals and plastic deformation on these nano-scale properties was studied. The description and characterization of the observed indentation size effect through the application of the Meyer’s law was conducted and reported. (en)
Title
  • Mechanical Properties of Low-alloyed Molybdenum Alloys in Single Crystalline Form and after Plastic Deformation Using Nano-indentation Tests
  • Mechanical Properties of Low-alloyed Molybdenum Alloys in Single Crystalline Form and after Plastic Deformation Using Nano-indentation Tests (en)
skos:prefLabel
  • Mechanical Properties of Low-alloyed Molybdenum Alloys in Single Crystalline Form and after Plastic Deformation Using Nano-indentation Tests
  • Mechanical Properties of Low-alloyed Molybdenum Alloys in Single Crystalline Form and after Plastic Deformation Using Nano-indentation Tests (en)
skos:notation
  • RIV/61989100:27360/11:86080906!RIV12-MSM-27360___
http://linked.open...avai/riv/aktivita
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  • S, Z(MSM6198910013)
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  • 6
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  • 211249
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  • RIV/61989100:27360/11:86080906
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  • alloys; molybdenum; single crystal; Nanoindentation (en)
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  • CZ - Česká republika
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  • [1B8BE50E7472]
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  • 64
http://linked.open...iv/tvurceVysledku
  • Drápala, Jaromír
  • Vyležík, Michal
  • Skotnicová, Kateřina
http://linked.open...n/vavai/riv/zamer
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  • 0018-8069
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  • 27360
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