THE EFFECT OF AL2O3 AND STIRRING TIME ON DENSITY AND POROSITY OF ALUMINUM ADC12 FOAM

Metalurgi Pub Date : 2023-10-09 DOI:10.55981/metalurgi.2023.707

Yeni Muriani Zulaida, Muhammad Nurul Izzudin, Suryana Suryana

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Abstract

The instability of the foam forming during metallic foam manufacture commonly occurs, which will cause undesirable pores. The stability of the foam structure is one of the important factors. A stabilizer can maintain the foam cell during the melting process. In this study, the metal used is ADC12 with a 12 wt.% of Si element content, and the foaming agent is CaCO3. CaCO3 will produce gas to form bubbles in the melt during the solidification process and use a stabilizer to strengthen cell walls so that foam does not easily fall off or collapse. The stabilizer uses Al2O3 with the variation of Al2O3 are 1 to 3 wt.%. The stirring time is as variable as well. A stirring process is conducted to distribute foaming agents so that the foam distribution is more homogeny throughout the aluminum foam. The variation of the stirring time is carried out for 60, 120, and 180 seconds. The results show that as the time of stirring and the addition of stabilizer increases, the porosity will rise, but the density decrease. Compressive strength results show it has no significant relation with increasing the stabilizer and stirring time. The highest compressive strength is obtained in the sample with a stirring time of 120 seconds with an Al2O3 content of 1 wt.%.

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al2o3和搅拌时间对adc12铝泡沫密度和孔隙率的影响

在金属泡沫制造过程中，泡沫形成不稳定是常见的现象，会产生不良的孔隙。泡沫结构的稳定性是其中一个重要因素。稳定剂可以在熔化过程中保持泡沫细胞。本研究选用的金属为硅元素含量为12 wt.%的ADC12，发泡剂为CaCO3。CaCO3在凝固过程中会产生气体，在熔体中形成气泡，并使用稳定剂加强细胞壁，使泡沫不易脱落或破裂。稳定剂采用Al2O3, Al2O3含量变化为1 ~ 3wt .%。搅拌时间也是可变的。进行搅拌过程以分配发泡剂，使泡沫在整个泡沫铝中分布更加均匀。搅拌时间的变化进行了60、120和180秒。结果表明:随着搅拌时间和稳定剂加入量的增加，孔隙率增大，密度减小;抗压强度与稳定剂的添加量和搅拌时间无显著关系。当Al2O3含量为1wt .%时，搅拌时间为120秒的试样抗压强度最高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Metalurgi

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