1 Introduction
1.1 Research background
1.2 Summary of research progress on mining dynamic disasters such as mine earthquake and rock-burst
1.3 Research scope and research content
2 Impact Hazard Analysis Technology Based on Evolution of Stress State
2.1 Concept of impact danger
2.2 Characteristics of initial stress fields in deep formations
2.3 Impact risk assessment method based on stress state
2.4 Impact hazard analysis techniques based on the spatio-temporal Change of stress field
2.5. Summary
3 Correlation and Trigger Mechanism Between Regional Solid Tidal Stress and Mine-induced Earthquakes
3.1 Earth''s solid tidal stress theory
3.2 Statistical analysis method of solid tide triggering effect of mine earthquake
3.3 Analysis of triggering effect of solid tide of quake in the huating coalfield area
3.4 Analysis on the relationship between the triggering of the solid tide and the scale of mine earthquakes
3.5 Analysis of trigger mechanism of tidal stress induced mine earthquake
3.6 Impact of the earthquake process on local solid tide activity
3.7. Summary
4 Observation and Analysis Methods of Regional Strain Effects of Mining Earthquakes
4.1 Correlation and synergy mechanism between mining disturbance effect and regional stress field
4.2 Geological and engineering background analysis of regional stress strain effect observation in Huating mining area
4.3 Observation technology of drilling strain
4.4 Analysis of time series of borehole strain observation data
4.5 Summary
5 Analysis of Regional Strain Effects and Disaster-related Characteristics of Mininginduced Dynamic Disasters
5.1 Regional strain response models and relations to seismic features during mining
5.2 Disaster feature extraction analysis based on time history Changes of borehole strain data
5.3 Analysis of precursor characteristics of mining dynamic disasters
5.4. Summary
6 Research Conclusions and Understanding
6.1 Main conclusions
6.2 Innovation
6.3 Outlook
References
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