Parameter Design of Sand Casting to Minimize Shrinkage Defects, Porosity Defects and Incomplete Defects

Syah Rizal Muzaqqi, S. Suprayitno, Y. Pradana
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Abstract

Casting is one of the most commonly used manufacturing method for geometrically complex product. Among the casting technologies, sand casting is often found in application. Beside the advantages of the sand-casting process, it also has a drawback that is often encountered, namely product defects. Product defects can be caused by a lack of attention to sand casting parameters. This work aims to minimize those defects, including porosity defects, shrinkage defects and incomplete defects by optimizing process parameters using the Taguchi method. The identified sand-casting process parameters include gating location, riser location, molding conditions and pouring temperature with each parameter consisting of 3 levels. This research using the fractional factorial L9 (34). Data processing is carried out by analysis of mean (ANOM) to obtain plot effects. The results showed that the optimal combination of parameters that resulted in shrinkage, porosity and minimal incomplete defects were at gating location level 2, riser location level 1, mold condition level 2 and pouring temperature level 3. The results of the comparison before and after optimization were an increase of 0.77, where previously it was 1.30 to 2.07 based on normalized data.
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最小化收缩缺陷、孔隙缺陷和不完整缺陷的砂型铸造参数设计
铸造是几何形状复杂产品最常用的制造方法之一。在各种铸造技术中,砂型铸造经常被应用。除了砂型铸造工艺的优点外,它还有一个经常遇到的缺点,即产品缺陷。产品缺陷可能是由于对砂型铸造参数缺乏关注造成的。这项工作旨在通过使用田口方法优化工艺参数,最大限度地减少这些缺陷,包括气孔缺陷、收缩缺陷和不完整缺陷。确定的砂型铸造工艺参数包括浇口位置、冒口位置、成型条件和浇注温度,每个参数包含 3 个等级。本研究采用分数因子 L9 (34)。通过均值分析(ANOM)对数据进行处理,得出小区效应。结果表明,导致收缩率、孔隙率和最小不完整缺陷的最佳参数组合是浇口位置 2 级、冒口位置 1 级、模具条件 2 级和浇注温度 3 级。优化前后的比较结果是,根据归一化数据,收缩率增加了 0.77,而之前的收缩率为 1.30 至 2.07。
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