Table 1 Summary table of Relevant research.
Research method | Research content | Advantages | Problems yet to be solved | Literature |
|---|---|---|---|---|
Microstructure analysis and mechanical property testing | The influence of titanium carbide on the microstructure and mechanical properties of MOS cement | Clarify the modification effect of titanium carbide to provide a direction for material reinforcement | It has not been combined with actual engineering scenarios and lacks long-term performance verification | |
Material composition optimization and performance testing | The influence of highly active magnesium oxide powder on the setting and compressive strength of MOS cement | Improve the key performance indicators of materials and enhance their practicality | It does not involve architectural application scenarios and lacks research on engineering adaptability | |
Engineering scenario simulation test | The Application of MOS Cement in the Temporary Sealing of Geothermal Drilling | Expand the application fields of materials and verify their applicability in special scenarios | It is not targeted at the construction field, and the tolerance to the construction environment is unknown | |
Analysis of hydration mechanism and durability test | The performance evolution of MOS cement under long-term soaking | Reveal the law of material durability and enrich the basic theoretical research | The application of glued bamboo materials has not been focused on, and there is a lack of multi-factor coupling research | |
Waste material addition modification and performance testing | The influence of metallurgical waste on the crack resistance performance of MOS cement coatings | Innovate modification methods and expand the application scope of materials | It has not delved into construction projects and has not involved the compatibility of glued bamboo materials |
