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Hoekstra, S.; Munnig Schmidt-van der Burg, M. A.; Galenkamp, H.; van Wijngaarden, H.

Quantitative Determination of Stress and Strain Distributions During High Axial Compression of Aluminium With the Aid of Small Ruby Particles

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  • Media type: E-Article
  • Title: Quantitative Determination of Stress and Strain Distributions During High Axial Compression of Aluminium With the Aid of Small Ruby Particles
  • Contributor: Hoekstra, S.; Munnig Schmidt-van der Burg, M. A.; Galenkamp, H.; van Wijngaarden, H.
  • imprint: ASME International, 1983
  • Published in: Journal of Applied Mechanics
  • Language: English
  • DOI: 10.1115/1.3166990
  • ISSN: 0021-8936; 1528-9036
  • Keywords: Mechanical Engineering ; Mechanics of Materials ; Condensed Matter Physics
  • Origination:
  • Footnote:
  • Description: <jats:p>Line shift measurements of the sharp R1 ruby fluorescence line with respect to a neon reference line are used for the determination of quantitative stress distributions during high axial compression of cylindrical samples of aluminium between two transparent sapphire anvils. At the sample-anvil interface small ruby particles are embedded in the aluminium surface as optomechanical sensors for local stress and strain measurements. The experimental results are used to verify computer calculations based on the finite element method. The measurement technique was recently described by Brouha et al. [5, 6]. In this paper some modifications and new results will be presented and the use of pure sapphire anvils with a stress-sensitive top layer of ruby obtained by implantation of Cr3+ ions will be discussed.</jats:p>