书籍详情
岩石力学与工程:滑坡与崩塌灾害的预测与控制(英文版)
作者:傅鹤林 著
出版社:中南大学出版社
出版时间:2021-05-01
ISBN:9787548743361
定价:¥98.00
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内容简介
岩石力学是一门理论性、应用性和实践性很强的应用基础学科,应用范围涉及采矿、土木建筑、水利水电、铁道、公路、地质、石油等众多的与岩石工程相关的工程领域。本书结合“一带一路”沿线国家铁路人才培养需求,主要介绍究高速铁路勘察设计、施工和运营阶段的地质灾害监测预报,优化地质灾害修复技术,确保勘察设计阶段的设计方案经济合理,施工阶段的防治措施安全有效,最终达到行车安全的目的。本书可作为土木工程专业研究生教学用书,也可供相关专业技术人员参考使用。
作者简介
暂缺《岩石力学与工程:滑坡与崩塌灾害的预测与控制(英文版)》作者简介
目录
Chapter 1 Overview Of Research
1.1 Status of foreign research
1.2 Domestic research status
Chapter2 similar Simulation T喊of Landslide Field
2.1 Purpose and significance
2.2 Simulated test site
2.3 Field simulation test of landslide triggered by artificial rainfall
2.4 Field simulation test of landslide induced by mechanical excavation
2.5 Chapter summary
Chapter 3 RockfaU Mechanism and Rock Theoretical Stability Analysis
3.1 Generation mechanism of rockfall
3 2 Stability analysis of sliding rockfall with block theory
3.3 Stability calculation for potential rockfall
3.4 Chapter summary
Chapter 4 Potential Hazard Prediction of Rockfall
4.1 Introduction
4.2 Research methods for predicting potential hazards of high—speed railway landslides
4.3 Kinematic equation of rockfall and determination of its parameters
4.4 Chapter summary
Chapter 5 Laboratory Test
5.3 Field experiments on acoustic emission characteristics of rocks
5.4 Chapter sununary
Chapter 6 Disaster Mechanism and Regularity of Landslide and Rockfall on High-speed Railway
6.1 Developmental characteristics
6.2 Formation conditions of railway geological disasters
6.3 Chapter summary
Chapter 7 Geological Basis
7.1 Monitoring and prediction landslides and rockfall on high—speed railway
7.2 Stability evaluation of high—speed railway landslides and rockfall
7.3 Chapter summary
Chapter 8 Monitoring Technology of Landslide and Rockfall of High Speed Railway
8.1 Summary of slope information monitoring
8 2 Major monitoring instruments
8.3 Common monitoring methods
8.4 Comprehensive monitoring of network layout
8.5 Monitoring duration and frequency
8.6 Types and analysis of deep displacement curves
8.7 Slope automation monitoring system
8.8 Group survey and group prevention monitoring system
8.9 TDR monitoring system research
8.10 Chapter summary
Chapter 9 Landslide and Rockfall Prediction Technology
9.1 Basic problems of prediction and forecasting
9.2 Theory and method of landslide and rockfall prediction
9.3 Rockfall grey—mutation theory prediction
9.4 Monitoring data processing program research
9.5 Chapter summary
Chapter 10 Monitoring and Forecasting of Landslides and Rockfalls in Various Stages of High-speed Railway
10.1 Landslide and rockfall monitoring and prediction in survey and design stage
10.2 Monitoring and prediction of landslides and rockfalls in construction stage
10.3 Monitoring and prediction of landslides and rockfalls in operation stage
10.4 Chapter summary
Chapter 11 Engineering Application
11.1 Qinglong landslide monitoring and forecasting technology
11.2 Monitoring and prediction analysis of puantang rockfall
11.3 Huai Shaoheng railway DK324 slope slip analysis
11.4 Chapter summary
References
1.1 Status of foreign research
1.2 Domestic research status
Chapter2 similar Simulation T喊of Landslide Field
2.1 Purpose and significance
2.2 Simulated test site
2.3 Field simulation test of landslide triggered by artificial rainfall
2.4 Field simulation test of landslide induced by mechanical excavation
2.5 Chapter summary
Chapter 3 RockfaU Mechanism and Rock Theoretical Stability Analysis
3.1 Generation mechanism of rockfall
3 2 Stability analysis of sliding rockfall with block theory
3.3 Stability calculation for potential rockfall
3.4 Chapter summary
Chapter 4 Potential Hazard Prediction of Rockfall
4.1 Introduction
4.2 Research methods for predicting potential hazards of high—speed railway landslides
4.3 Kinematic equation of rockfall and determination of its parameters
4.4 Chapter summary
Chapter 5 Laboratory Test
5.3 Field experiments on acoustic emission characteristics of rocks
5.4 Chapter sununary
Chapter 6 Disaster Mechanism and Regularity of Landslide and Rockfall on High-speed Railway
6.1 Developmental characteristics
6.2 Formation conditions of railway geological disasters
6.3 Chapter summary
Chapter 7 Geological Basis
7.1 Monitoring and prediction landslides and rockfall on high—speed railway
7.2 Stability evaluation of high—speed railway landslides and rockfall
7.3 Chapter summary
Chapter 8 Monitoring Technology of Landslide and Rockfall of High Speed Railway
8.1 Summary of slope information monitoring
8 2 Major monitoring instruments
8.3 Common monitoring methods
8.4 Comprehensive monitoring of network layout
8.5 Monitoring duration and frequency
8.6 Types and analysis of deep displacement curves
8.7 Slope automation monitoring system
8.8 Group survey and group prevention monitoring system
8.9 TDR monitoring system research
8.10 Chapter summary
Chapter 9 Landslide and Rockfall Prediction Technology
9.1 Basic problems of prediction and forecasting
9.2 Theory and method of landslide and rockfall prediction
9.3 Rockfall grey—mutation theory prediction
9.4 Monitoring data processing program research
9.5 Chapter summary
Chapter 10 Monitoring and Forecasting of Landslides and Rockfalls in Various Stages of High-speed Railway
10.1 Landslide and rockfall monitoring and prediction in survey and design stage
10.2 Monitoring and prediction of landslides and rockfalls in construction stage
10.3 Monitoring and prediction of landslides and rockfalls in operation stage
10.4 Chapter summary
Chapter 11 Engineering Application
11.1 Qinglong landslide monitoring and forecasting technology
11.2 Monitoring and prediction analysis of puantang rockfall
11.3 Huai Shaoheng railway DK324 slope slip analysis
11.4 Chapter summary
References
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