New Insights into the Formation Mechanism of Solid-Liquid Segregation in the Semi-Solid Processing: Macro-Micro Linkage Theory

AMI: Acta Materialia Pub Date : 2020-01-01 DOI:10.2139/ssrn.3708673

W. Qu, Da-quan Li, Xiaogang Hu, Min Luo, Q. Zhu

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Abstract

Solid-liquid segregation is a typical problem in multiphase flow, especially in the die casting of metallic alloys. The avoidance of phase segregation in High Pressure Die Casting (HPDC), and Semi-solid Processing (SSP) for suspended flow is a benefit for improving product performance. At present, there is not a unified statement on the cause of the solid-liquid segregation defect. The formation mechanism of phase segregation is investigated by theoretical analysis from the perspective of hydrodynamic and rheology. The relationship between hydrodynamic parameters and characteristic rheological index is established. Maps of critical velocity, power-law index n, and consistency coefficient k are depicted for the semi-solid slurries. Then experiments and corresponding multiphase simulations were conducted to verify this theory. The macroscopic and microscopic linkage mechanism was proposed based on the theoretical discussion. This investigation not only provides important insights into the flow map of the semi-solid slurry, but also offers a key criterion of filling velocity for the avoiding of phase segregation for shear-thinning non-Newtonian fluids.

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半固态加工中固液偏析形成机理的新认识:宏观-微观联系理论

固液偏析是多相流中的一个典型问题，特别是在金属合金压铸过程中。在高压压铸(HPDC)和悬浮流半固态加工(SSP)中避免相偏析有利于提高产品性能。目前，对于固液偏析缺陷的成因并没有一个统一的说法。从流体力学和流变学的角度对相偏析的形成机理进行了理论分析。建立了水动力参数与特征流变指标之间的关系。图的临界速度，幂律指数n，和稠度系数k描绘了半固体浆料。然后通过实验和相应的多相模拟来验证这一理论。在理论探讨的基础上，提出了宏观和微观联动机理。该研究不仅为半固态浆体的流动图提供了重要的见解，而且为避免剪切变薄非牛顿流体的相离析提供了一个关键的填充速度标准。

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AMI: Acta Materialia

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