使用铸造模拟方法对不同侧边Riser的efieffect评估

Galuh Bahari, Benidiktus Tulung Prayoga
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引用次数: 0

摘要

当凝固到达热点区域时,没有熔融金属残留,形成收缩。为了防止收缩,浇注系统中加入了冒口。最佳立管设计将产生自由收缩组件。影响隔水管效率的因素之一是隔水管的形状。本研究旨在利用仿真软件寻找最有效的侧立管形状。实验中使用了管状立管、半球形立管、半球形立管、圆锥形立管、椭圆截面立管和立方体立管的形状,所有立管的体积保持不变。立管最有效的形状是管状。立管产生较大的模量。立管产生定向凝固。同样的模式可以在niyama标准和凝固温度中看到,其中管立管与其他立管形状相比具有更连续的模式。
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Evaluasi Efisensi Riser Untuk Bentuk Riser Samping yang Berbeda Menggunakan Metode Simulasi Casting
As the solidification reaches the hot spot area, no molten metal remains and shrinkage is formed. To anticipate the shrinkage, a riser is added to the casting system. An optimal riser design would produce free shrinkage components. One of the factors that affect riser efficiency is the riser shape. This study aims to find the most efficient side riser shape by using simulation software. The riser shape of tubes, tubes with a half sphere on top, hemispheres, conical tubes, tubes with an oval cross-section, and cubes are used in this experiment, with the volume of all risers kept constant. The most efficient shape of the riser is the tube. The tube riser produces a larger modulus. The tube riser generated directional solidification. The same pattern can be seen in the niyama criteria and solidification temperature, where the tube riser has a more continuous pattern compared to other riser shapes.  
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审稿时长
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