Microbiologically induced calcium carbonate precipitation (MICP) is a technique that has
received a lot of attention in the field of geotechnology in the last decade. It has the potential …

The production of concrete and the manufacturing process of cement result in a significant
carbon footprint, contributing to a large portion of global emissions in structures such as …

Microbially induced calcite precipitation (MICP) is an efficient and eco-friendly technique that
has attracted significant interest for resolving various problems in the soil (erosion …

Microbes can induce the production of calcium carbonate deposits, which cement solid
wastes such as coal gangue to form backfill materials. Filling such backfill materials in …

With the recent increases in energy demands, the dust hazards of coal mining caused by
transportation, loading and unloading and other processes are becoming increasingly …

Microbial-induced carbonate precipitation (MICP) cementation of sand results in the
generation of waste liquid containing ammonium ions, posing environmental pollution …

Self-healing concrete has established its effectiveness in repairing cracks, ultimately leading
to improved durability. Additionally, there is a need to ensure that other crucial mechanical …

The partial replacement of cement or natural aggregates with industrial wastes and using
microbially-induced carbonate precipitation to heal cracks are two developing methods to …

The current article overviews the latest research on bacterial concrete (BC), a promising new
material. This article encompasses various topics, such as investigating bacterial kinetics …

Cracking in tension causes damage to regular concrete. When the surface of the concrete
cracks, liquids can enter and damage the structure. Remediating concrete in rigid …