Non-isothermal thin-film flow of a viscoplastic material over topography: critical Bingham number for a partial slump

IF 2.2 3区工程技术 Q2 MECHANICS

Theoretical and Computational Fluid Dynamics Pub Date : 2023-03-17 DOI:10.1007/s00162-023-00642-5

Miguel Moyers-Gonzalez, James N. Hewett, Dale R. Cusack, Ben M. Kennedy, Mathieu Sellier

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Abstract

This paper considers the non-isothermal flow of a viscoplastic fluid on a horizontal or an inclined surface with a flat, a step-up and a step-down topography. A particular application of interest is the spread of a fixed mass—a block—of material under its own weight. The rheology of the fluid is described by the Bingham model which includes the effect of yield stress, i.e. a threshold stress which must be exceeded before flow can occur. Both the plastic viscosity and the yield stress are modelled with temperature-dependent parameters. The flow is described by a reduced model with a thin-film equation for the height of the block and a depth-averaged energy conservation equation for the heat transfer. Results show that for large values of the yield stress, only the outer fraction of the fluid spreads outward, the inner fraction remaining unyielded, hence the block only partially slumps. Conversely, for small values of the yield stress, the entire block of fluid becomes yielded and therefore slumps. We present an analysis which predicts the critical value of the yield stress for which partial slump occurs and how it depends on temperature.

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粘塑性材料在地形上的非等温薄膜流动:部分坍落度的临界宾汉数

本文研究了粘塑性流体在具有平坦、上升和下降地形的水平或倾斜表面上的非等温流动。我们感兴趣的一个特殊应用是固定质量——一块材料在自身重量下的扩散。流体的流变由Bingham模型描述，该模型包括屈服应力的影响，即在流动发生之前必须超过的阈值应力。塑性黏度和屈服应力均采用温度相关参数进行建模。流动用简化模型描述，用薄膜方程表示块体高度，用深度平均能量守恒方程表示传热。结果表明，当屈服应力较大时，只有流体的外层部分向外扩散，内部部分不屈服，因此块体只有部分坍落。相反，当屈服应力值很小时，整个流体块就会屈服，从而发生塌降。我们提出了一种分析方法，预测了发生部分坍落度的屈服应力临界值及其与温度的关系。

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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来源期刊

Theoretical and Computational Fluid Dynamics 物理-力学

CiteScore

5.80

自引率

2.90%

发文量

审稿时长

>12 weeks

期刊介绍： Theoretical and Computational Fluid Dynamics provides a forum for the cross fertilization of ideas, tools and techniques across all disciplines in which fluid flow plays a role. The focus is on aspects of fluid dynamics where theory and computation are used to provide insights and data upon which solid physical understanding is revealed. We seek research papers, invited review articles, brief communications, letters and comments addressing flow phenomena of relevance to aeronautical, geophysical, environmental, material, mechanical and life sciences. Papers of a purely algorithmic, experimental or engineering application nature, and papers without significant new physical insights, are outside the scope of this journal. For computational work, authors are responsible for ensuring that any artifacts of discretization and/or implementation are sufficiently controlled such that the numerical results unambiguously support the conclusions drawn. Where appropriate, and to the extent possible, such papers should either include or reference supporting documentation in the form of verification and validation studies.