Metals (Jun 2019)

Role of Roll Separating Force in High-Speed Twin-Roll Casting of Aluminum Alloys

  • Min-Seok Kim,
  • Hyoung-Wook Kim,
  • Su-Hyeon Kim,
  • Shinji Kumai

DOI
https://doi.org/10.3390/met9060645
Journal volume & issue
Vol. 9, no. 6
p. 645

Abstract

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The role of the roll separating force in the high-speed twin-roll casting of aluminum alloys was examined. In horizontal-type twin-roll casting, as the casting speed increased upon decreasing the roll separating force, the strip texture changed from a shear and rolling texture to a random texture. Direct temperature measurements during high-speed twin-roll casting showed that the roll separating force played a significant role in maintaining a good contact between the strip and the roll surface. This resulted in a high cooling rate around the roll nip and enabled the fabrication of a sound strip with a fine microstructure. Moreover, the high casting speed and lowered roll separating force gave a band structure consisting of fine globular grains in the mid-thickness region of the strip, which could be considered beneficial in the formation of a well-dispersed center segregation.

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