Journal of Japan Foundry Engineering Society
Online ISSN : 2185-5374
Print ISSN : 1342-0429
ISSN-L : 1342-0429
Volume 85, Issue 6
Displaying 1-12 of 12 articles from this issue
Research Article
  • Daisuke Shimosaka, Yohei Harada, Shinji Kumai
    2013 Volume 85 Issue 6 Pages 335-342
    Published: June 25, 2013
    Released on J-STAGE: April 03, 2017
    JOURNAL FREE ACCESS

      The cooling rates of cast products made of Al-11%Si-2.5%Cu alloy were measured and their eutectic Si phase morphology was examined. With permanent mold cast and die-cast products (low cooling rates), their eutectic Si phase was plate-like in the mid-central region, and rod-like near the surface. In the case of high-speed twin-roll cast products (high cooling rates), their eutectic Si phase was rod-like both in the mid-central region and the region near the surface. The morphological change of the eutectic Si phase from plate-like to rod-like occurs at the estimated cooling rate of about 1000 K/s. The aspect ratio and average particle diameter of the rod-like Si phase in high-speed twin-roll cast products were close to the modified eutectic Si phase. In order to investigate the effects of the morphological change of eutectic Si phase on mechanical properties, tensile tests, tear toughness tests, and bending tests were performed. Elongation, tear toughness, and bendability were improved by the morphological change of the eutectic Si phase from plate-like to rod-like. Especially, unit crack propagation energy (UEp) increased by six times, and it was possible to bend the specimens up to 180 degrees. This is considered due to the suppression of crack initiation and propagation by the change in the morphology of the eutectic Si phase. These results show that morphological change of the eutectic Si phase by rapid solidification is effective for improving the elongation, toughness and bendability (formability) of materials that contain large amounts of eutectic Si phase.

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  • Takahito Takagawa, Yoshiyuki Syoubuzawa, Hiroyuki Ike, Akira Barajima
    2013 Volume 85 Issue 6 Pages 343-347
    Published: June 25, 2013
    Released on J-STAGE: April 03, 2017
    JOURNAL FREE ACCESS

      In order to control the manganese content in molten cast iron, the effect of manganese removal by Na2S-FeS flux was investigated in the temperature range 1573-1673K.

      Manganese removal reaction occurred in a very short time, and no effects of temperature on manganese removal efficiency were observed. However, the sulfur content in molten cast iron increased with increasing temperature, and also changed with changes in the flux composition and flux amount. In addition, the manganese distribution ratio (manganese content in flux (%Mn) / manganese content in molten cast iron [%Mn]) improved from 10 to 115 according to increasing sulfur content in molten cast iron. These results indicate that to improve manganese removal efficiency, it is desirable to add FeS within the allowed sulfur content in molten cast iron.

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