本书以我国最大的滨海金属矿山三山岛金矿为背景，介绍了保障深部安全高效开采相关的理论、方法和技术。全书分为7章，包括深部开采的机遇与挑战、三山岛矿区工程地质、地应力测量及其实践、岩体测试与岩体质量评价、深部水化学环境水诱发岩石化学损伤、深部采场优化和稳定性分析、稳定性分析及地压监测。
本书可作为高等学校岩石力学、采矿工程、土木工程、水利工程、岩土工程和地球科学专业的高年级本科生和研究生，尤其是来自“一带一路”沿线国家留学生的教学参考书，也可供从事深部采矿的设计、优化和安全的采矿和岩土工程师参考。

郭奇峰，男，1984年生，河南人，博士，北京科技大学副教授。主要从事地应力测量、岩石力学与岩层控制、地下工程安全与耐久性等相关研究工作。执笔完成中国工程院《我国金属矿深部开采创新技术体系的战略研究》和《面向2035的金属矿深部多场耦合智能开采战略研究》战略咨询报告，主持完成科研项目10余项，获省部级奖励3项，发表学术论文30余篇，申请专利6项。

1 Opportunities and Challenges in Deep Mining
1.1 Status of deep mining
1.2 Mechanical environment in deep mining
1.3 Engineering response in deep mining
1.4 Status of deep metal mines at home and abroad
1.5 Challenges in deep mining
2 Geological Conditions in Sanshandao Mining Area
2.1 Regional geology
2.2 Engineering geology
2.3 Hydrogeology
3 In-situ Stress Measurement Method and Its Application
3.1 The principle of in-situ digitizing hollow inclusion cell
3.2 In-situ stress measurement and distribution law
3.3 The in-situ stress field distribution
4 Rock Mass Investigation and Rock Quality Evaluation
4.1 Influence of structural plane on surrounding rocks
4.2 Structural plane investigation of deep tunnel rock mass
4.3 Investigation summary of the structural plane of deep tunnel rock mass
4.4 Rock quality classification
5 Rock Chemical Damage Induced by Deep Hydrochemical Environment
5.1 Analysis of deep hydrochemical environment
5.2 Damage mechanism and time-dependent characteristics of granite under the action of acidic chemical solutions
5.3 Morphology and porosity development of granite before and after chemical erosion
5.4 Time-dependent characteristic test of granite damage process under the action of acidic chemical solution
5.5 Mineral composition change and chemical damage mechanism during rock-groundwater interaction
6 Mining Optimization and Stability Analysis of Stopes
6.1 Optimization of deep mining method
6.2 Optimization of structure parameters in deep stope
6.3 Spatio-temporal variation of displacement and stress in stope
6.4 Spatio-temporal variation of displacement and stress in multiple mining section mining
6.5 Stability analysis of surrounding rocks in deep fault zone
7 Stability Analysis and Ground Pressure Monitoring
7.1 Three-dimensional fracture network model
7.2 Mechanical parameters of representative elementary volume
7.3 Stability analysis of the tunnel in fracture rock mass
7.4 Monitoring of ground pressure in deep mining
References