Effect of Mold Preheat Temperature on Solidification Crack Strength of AC2B Aluminum Alloy

Journal of Korea Foundry Society Pub Date : 2014-10-31 DOI:10.7777/JKFS.2014.34.5.162

Heon-Joo Kim

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引用次数: 1

Abstract

The effect of the mold preheat temperature on the solidification crack strength was investigated in AC2B aluminum alloy. A tension type apparatus as part of a solidification crack test which could measure the stress-strain relationship quantitatively was utilized. The evaluation of the solidification crack strength with varying mold preheat temperatures was performed by the test procedure established in this research. When the mold preheat temperatures were 250C, 150C and 50C, the solidification crack strengths were found to be 7.8 Kgf/cm, 12.9 Kgf/cm and 28.6 Kgf/cm, respectively. In the same way, when the mold preheat temperatures were 250C, 150C and 50C, the corresponding temperatures of the failure sites were 610C, 600C and 571C, and the calculated solid fractions were 14.0%, 29.3% and 50.8% when the specimens failed, respectively. The solidification crack strength increased in proportion to the solid fraction of the failure site. The solidification crack strength obtained in this test is assumed to reflect the effects of metallurgical factors on the thermo-plastic characteristics of a solidifying alloy such as the grain size of the solid, the grain morphology, and the distribution of solid grain.

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模具预热温度对AC2B铝合金凝固裂纹强度的影响

研究了模具预热温度对AC2B铝合金凝固裂纹强度的影响。在凝固裂纹试验中，采用了一种可定量测量应力-应变关系的张力式装置。采用本研究建立的试验程序对不同的模具预热温度下的凝固裂纹强度进行了评价。当模具预热温度为250C、150C和50C时，凝固裂纹强度分别为7.8 Kgf/cm、12.9 Kgf/cm和28.6 Kgf/cm。同样，当模具预热温度分别为250C、150C和50C时，试件破坏部位对应的温度分别为610C、600C和571C，试件破坏时计算出的固相分数分别为14.0%、29.3%和50.8%。凝固裂纹强度随破坏部位固相含量的增加而增大。本试验中获得的凝固裂纹强度假设反映了冶金因素对凝固合金热塑性特性的影响，如固体的晶粒尺寸、晶粒形貌和固体晶粒的分布。

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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Journal of Korea Foundry Society

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