MICP 胶结钙质砂动力特性试验研究
刘汉龙, 肖鹏, 肖杨, 王建平, 陈育民, 楚剑 - 岩土工程学报, 2018 - cgejournal.com
以南海某岛的钙质砂为材料进行微生物(MICP) 胶结加固, 通过动三轴试验和SEM 微观结构试验,
研究了MICP 胶结钙质砂在不同胶结程度和不同动应力水平下的动强度, 动变形, 动孔压 …
研究了MICP 胶结钙质砂在不同胶结程度和不同动应力水平下的动强度, 动变形, 动孔压 …
A review of microbial precipitation for sustainable construction
V Achal, A Mukherjee - Construction and Building Materials, 2015 - Elsevier
Rapid urbanisation has accelerated consumption of concrete making it the most consumed
artificial material. Present day concrete is one of the largest sources of anthropogenic …
artificial material. Present day concrete is one of the largest sources of anthropogenic …
Application of microbially induced calcite precipitation in erosion mitigation and stabilisation of sandy soil foreshore slopes: A preliminary investigation
Eroding foreshores endanger the floodplains of many estuaries, as such, effective and
environmentally friendly interventions are sought to stabilise slopes and mitigate erosion. As …
environmentally friendly interventions are sought to stabilise slopes and mitigate erosion. As …
Effect of particle shape on strength and stiffness of biocemented glass beads
Y Xiao, AW Stuedlein, J Ran, TM Evans… - … of Geotechnical and …, 2019 - ascelibrary.org
Microbially induced calcite precipitation (MICP) has attracted significant attention as a
promising in situ ground reinforcement method, particularly for the improvement of existing …
promising in situ ground reinforcement method, particularly for the improvement of existing …
Large-scale comparison of bioaugmentation and biostimulation approaches for biocementation of sands
MG Gomez, CM Anderson, CMR Graddy… - … of geotechnical and …, 2017 - ascelibrary.org
Microbially induced calcite precipitation (MICP) is a promising biocementation process that
can improve the geotechnical properties of granular soils through the precipitation of calcite …
can improve the geotechnical properties of granular soils through the precipitation of calcite …
Micro-mechanical performance evaluation of expansive soil biotreated with indigenous bacteria using MICP method
This study explored the effect of indigenous bacteria present in the soil to stabilized swelling
behavior and improving the mechanical property of expansive soil. The objective of the …
behavior and improving the mechanical property of expansive soil. The objective of the …
Enhancement technologies of recycled aggregate–Enhancement mechanism, influencing factors, improvement effects, technical difficulties, life cycle assessment
C Feng, B Cui, Y Huang, H Guo, W Zhang… - Construction and Building …, 2022 - Elsevier
With the prosperity and further development of the construction industry, the consumption of
construction resources is increasing each year. Additionally, a large amount of construction …
construction resources is increasing each year. Additionally, a large amount of construction …
Factors affecting improvement in engineering properties of residual soil through microbial-induced calcite precipitation
NW Soon, LM Lee, TC Khun, HS Ling - Journal of Geotechnical and …, 2014 - ascelibrary.org
Studies of soil improvement by microbial-induced calcite precipitation (MICP) have focused
primarily on fine sand. This paper explores the viability of the MICP technique for improving …
primarily on fine sand. This paper explores the viability of the MICP technique for improving …
State-of-the-art review of soil erosion control by MICP and EICP techniques: Problems, applications, and prospects
In recent years, the application of microbially induced calcite precipitation (MICP) and
enzyme-induced carbonate precipitation (EICP) techniques have been extensively studied …
enzyme-induced carbonate precipitation (EICP) techniques have been extensively studied …
Investigation of pore-scale CaCO3 distributions and their effects on stiffness and permeability of sands treated by microbially induced carbonate precipitation (MICP)
Physical properties of MICP-treated sands are controlled by CaCO 3 distributions in pore
space, which remain relatively unexplored. CaCO 3 can deposit at the particles' contact area …
space, which remain relatively unexplored. CaCO 3 can deposit at the particles' contact area …