Optimization of Ladle Tilting Speed for Preventing Temperature Drops in the Die Casting Process

Haru Ando, Daichi Minamide, Yuto Takagi, K. Yano, N. Nakamura, M. Sano, Takahiro Aoki, Yasunori Nemoto
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Abstract

In die casting, molten metal poured into a shot sleeve is pressed into a mold by a plunger at high speed. The temperature of the metal drops significantly while it is being poured from the ladle to the shot sleeve, resulting in casting defects such as misrun flow lines. Although it is important to control the temperature at all stages of the process, a method for minimizing temperature loss has not yet been clarified to date. In this study, the cause of the temperature drop in the shot sleeve was clarified, and a method of optimizing the ladle tilting speed was proposed to prevent temperature drop. First, experiments were conducted to measure the decrease in metal temperature in the sleeve during pouring. These experiments revealed that the metal cools significantly from the moment it touches the shot sleeve. Therefore, the time from the first contact between the shot sleeve and the metal to the start of pouring was set as the objective function. A genetic algorithm was then used to derive the optimal ladle tilting speed pattern to suppress the temperature drop. This analysis confirmed that the metal was poured without flowing out or running ahead and that the immediate liquid level vibration after pouring was suppressed, thus ensuring stable pouring.
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为防止压铸过程中温度下降而优化钢包倾斜速度
在压铸工艺中,熔化的金属被浇铸到弹丸套中,通过柱塞高速压入模具。金属在从钢包浇注到抛丸套的过程中,温度明显下降,造成流线失行等铸造缺陷。尽管在工艺的各个阶段控制温度是很重要的,但迄今为止还没有一种最小化温度损失的方法。本研究明确了钢包内温度下降的原因,提出了优化钢包倾斜速度以防止温度下降的方法。首先,对浇注过程中套筒内金属温度的下降进行了实验测量。这些实验表明,金属从接触弹丸套的那一刻起就明显冷却。因此,设定从射丸套与金属第一次接触到浇注开始的时间作为目标函数。然后利用遗传算法推导出抑制温度下降的最佳钢包倾斜速度模式。通过分析,证实了浇注过程中金属既没有流出,也没有向前跑,并且抑制了浇注后的即时液位振动,保证了浇注的稳定性。
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