Biogeotechnology has been widely applied to soil stabilization in the field of geotechnical
engineering, compensating for the shortcomings of traditional geotechnical engineering …

Bio-carbonation of reactive magnesia cement (RMC) was proposed as a promising strategy
to stabilize the weathered stone grains for the efficient sealing of rock weathering cracks …

Biocarbonation of reactive magnesia based on microbially induced carbonate precipitation
(MICP) process is a sustainable geotechnical reinforcement technology for strength …

To efficiently heal large-aperture cracks in the sandstone cultural relics, a microbially
induced magnesia carbonation (MIMC) method was introduced in combination with …

Biocarbonation of reactive magnesia cement (RMC) is a promising and sustainable
biogeotechnology for construction and demolition waste (CDW) stabilization. The …

Addressing the dual environmental challenges of dredged sludge disposal and the
repurposing of industrial by-products, this study pioneers the application of Calcium Carbide …

This study investigated the application of the microbially induced calcite precipitation (MICP)
technique for removing suspended solids from biogas slurry. A series of laboratory tests on …

Abstract Low curing temperature conditions (5–15° C) in cold regions pose major
challenges for soil improvement using conventional binders, underscoring the urgent need …

In this context, an enzyme-induced magnesia carbonization (EIMC) method was proposed
for practical healing of rock weathering cracks in term of bio-cementing sandstone grains …

As lunar exploration develops, lunar construction is increasingly prominent and the in-situ
lunar regolith molding becomes a technical challenge. This study proposes a lunar regolith …