Factors affecting the effectiveness of biocementation of soil

Hanjiang Lai , Xingzhi Ding , Mingjuan Cui , Junjie Zheng , Jian Chu , Zhibo Chen
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Abstract

Microbially or enzyme induced carbonate precipitation has emerged to be a new type of soil improvement method. However, it appears that the biocementation process is affected by many factors and a common understanding on the control factors on the biocement effect has not been reached. This paper attempts to identify the main factors that controlling the MICP or EICP effect through an in-depth discussion on the fundamentals of biocementation process. Similar to other cemented granular materials, biocemented soil is a structural soil composite consisting of soil skeleton and biocement force chain or biocement network. The strength and stiffness of the biocemented soil is controlled by the reinforcement effect of the biocement network on the soil skeleton or the interplay of the soil skeleton and precipitates. The contribution of the strength by soil skeleton is affected by the soil types and soil properties, while the contribution of the precipitates is through the distribution of the biocement network and the properties of the precipitates.

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影响土壤生物固化效果的因素
微生物或酶诱导碳酸盐沉淀已成为一种新型的土壤改良方法。然而,生物固结过程似乎受到很多因素的影响,对生物固结效果的控制因素尚未达成共识。本文试图通过深入探讨生物固结过程的基本原理,找出控制 MICP 或 EICP 效果的主要因素。与其他胶结颗粒材料类似,生物水泥土也是一种由土壤骨架和生物水泥力链或生物水泥网络组成的土壤结构复合材料。生物加固土的强度和刚度由生物水泥网络对土壤骨架的加固作用或土壤骨架与沉淀物的相互作用控制。土壤骨架对强度的贡献受土壤类型和土壤性质的影响,而沉淀物的贡献则通过生物水泥网络的分布和沉淀物的性质来实现。
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