The research aims to address the limitations of traditional solidification materials for land rehabilitation and propose new ecological solutions.
Investigated four application scenarios: soft soil solidification, heavy metal pollution remediation, ecological slope protection, and dust control.
Utilized key technologies such as calcium aluminate generation, microbial mineralization, and 3D network structure construction to enhance material performance.
Provided specific implementation pathways and optimization directions for ecological solidification materials.
Demonstrated significant improvement in ecological compatibility compared to traditional materials.
Increased stability and functionality of rehabilitated land areas through the proposed ecological techniques.
Contributed to the long-term maintenance and sustainable use of land resources.