Solid Fraction Examination at Flow Cessation and Flow Cessation Mechanism of Al-Si-Mg Alloy-Reference-Cited by-同舟云学术

Solid Fraction Examination at Flow Cessation and Flow Cessation Mechanism of Al-Si-Mg Alloy

Published:2020-09-05 Issue:5 Volume:14 Page:835-842
ISSN:1883-8022
Container-title:International Journal of Automation Technology
language:en
Short-container-title:IJAT

Author:

Nikawa Makoto,Iba Yu,Yamashita Minoru, ,

Abstract

The aim of this study is to experimentally determine the solid fraction at the cessation of the flow of a molten Al-Si-Mg alloy (JIS-AC4CH) ceases. In this study, an experimental apparatus to measure the melt temperature during flow was developed and was used to perform highly accurate temperature measurements. An immersion-type optical-fiber radiation thermometer without emissivity correction was used for the temperature measurement device in this apparatus. The solid fraction was calculated from the area of primary crystals when the molten metal at any temperature was quenched. The melt temperature at flow cessation was higher than the eutectic reaction temperature, and the solid fraction in the melt front was approximately 0.2. However, the maximum solid fraction was found at a position slightly away from the melt front toward the pouring gate, and was approximately 0.3. It was inferred for this Al-Si-Mg alloy, that the flow cessation mechanism was a mixture of skin formation and mushy formation types.

Publisher

Fuji Technology Press Ltd.

Subject

Industrial and Manufacturing Engineering,Mechanical Engineering

Reference24 articles.

1. H. Nakae, K. Oota, and K. Sato, “Influence of wettability between molten metal and mold materials on fluidity using water model,” J. of Japan Foundry Engineering Society, Vol.79, Issue 6, pp. 285-290, 2007.

2. M. Ohmasa and I. Ohnaka, “Comparison of measured and simulated water flow in low pressure die casting,” The J. of the Japan Foundrymen’s Society, Vol.63, Issue 11, pp. 883-888, 1991.

3. K. Kanazawa, K. Yano, J. Ogura, and Y. Nemoto, “Optimum runner design for die casting using CFD simulation and verification with water-model experiments,” Proc. of the ASME 2014 Int. Mechanical Engineering Congress & Exposition, pp. 14-20, 2014.

4. E. Kato, Y. Maeda, H. Nomura, A. Kohketsu, and A. Banno, “Direct observation of mold flow with different cross sectional areas of gate for aluminum die casting,” J. of Japan Foundry Engineering Society, Vol.71, Issue 1, pp. 34-39, 1999.

5. M. Itamura and N. Yamamoto, “Application of flow visualization technique to die casting mold filling investigation,” J. of Japan Foundry Engineering Society, Vol.68, Issue 3, pp. 235-241, 1996.

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