Cementor:生成具有特定微观结构的生物加固土壤的工具箱

Aoxi Zhang , Anne-Catherine Dieudonné
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引用次数: 0

摘要

根据碳酸盐晶体与主颗粒骨架的相对位置,生物胶结土壤可呈现出各种类型的微观结构。不同的微观结构会对材料的机械和水力响应产生不同的影响,因此开发模拟这些微观结构的能力非常重要。离散元素法(DEM)是一种功能强大的数值方法,可用于研究考虑到颗粒尺度特征的颗粒材料力学行为。本文介绍的工具箱可用于生成具有特定微观结构的生物加固土壤三维 DEM 样本。该工具箱可灵活建模具有接触胶结、晶粒桥接和包覆等沉淀物形式的生物胶结土壤,以及这些分布模式的组合。本文详细介绍了该算法,并评估了析出碳酸盐对土壤微观结构的影响。结果表明,以不同分布模式析出的碳酸盐对土壤微观结构的影响是不同的,这表明建立生物胶结土壤微观结构模型的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cementor: A toolbox to generate bio-cemented soils with specific microstructures

Bio-cemented soils can exhibit various types of microstructure depending on the relative position of the carbonate crystals with respect to the host granular skeleton. Different microstructures can have different effects on the mechanical and hydraulic responses of the material, hence it is important to develop the capacity to model these microstructures. The discrete element method (DEM) is a powerful numerical method for studying the mechanical behaviour of granular materials considering grain-scale features. This paper presents a toolbox that can be used to generate 3D DEM samples of bio-cemented soils with specific microstructures. It provides the flexibility of modelling bio-cemented soils with precipitates in the form of contact cementing, grain bridging and coating, and combinations of these distribution patterns. The algorithm is described in detail in this paper, and the impact of the precipitated carbonates on the soil microstructure is evaluated. The results indicate that carbonates precipitated in different distribution patterns affect the soil microstructure differently, suggesting the importance of modelling the microstructure of bio-cemented soils.

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