Emergent Scientist (Jan 2019)

From the microstructure of steels to the explosion of sparks

  • Guillen Anthony,
  • Goh Fang,
  • Andre Julie,
  • Barral Amaury,
  • Brochet Clement,
  • Louis Quentin,
  • Guillet Thibault

DOI
https://doi.org/10.1051/emsci/2019001
Journal volume & issue
Vol. 3
p. 2

Abstract

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Sparks ejected by the grinding of steel can be observed to split in mid-flight. In this paper, we investigate the link between steel microstructure and the splitting behavior using two different steels: hypoeutectoid (containing less than 0:8% carbon) and hypereutectoid (>0:8% carbon). We used a high-speed camera filming at 1000 fps to observe the sparks, and a Scanning Electron Microscope to image the microstructures. For the hypoeutectoid steel, we also quantified the splitting behavior of the sparks by measuring the statistical distribution of the linear distance they travel before splitting occurs. We find that our results are coherent with the common explanation of the splitting phenomenon, stating that sparks split because their microstructures allow the formation of pockets of CO2 by oxidation of Fe3C, producing an internal pressure and leading to explosion.

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