Shock and Vibration

Dynamic Hazard Mechanisms and Prevention in Deep Mines: Experiments, Modeling, and Field Monitoring


Publishing date
01 Mar 2022
Status
Closed
Submission deadline
05 Nov 2021

Lead Editor

1Northeastern University, Shenyang, China

2University of Toronto, Toronto, Canada

3Shandong University of Science and Technology, Qingdao, China

4Shandong University, Jinan, China

This issue is now closed for submissions.
More articles will be published in the near future.

Dynamic Hazard Mechanisms and Prevention in Deep Mines: Experiments, Modeling, and Field Monitoring

This issue is now closed for submissions.
More articles will be published in the near future.

Description

At present, many geoengineering activities have reached a depth of more than 1000 m, with some even reaching up to 4000m. There are a great number of geomechanical challenges faced in these mining engineering activities in the rock mass. Field monitoring in many hard rock mines has recorded dynamic failure phenomena such as rockburst, mine earthquakes, caving, and chamber instability. These dynamic hazards increase in frequency as mine depth increases, threatening the safety of construction workers and potentially causing substantial damage to the structure and equipment of the mine. The occurrence of these disasters makes deep engineering construction an extremely challenging problem.

Nowadays, although great effort has been dedicated in investigating and interpreting dynamic hazard phenomena, it is still difficult to accurately specify, evaluate, and prevent these accidents in deep mines due to the complex geological conditions, stress circumstances, and inducing factors. The traditional theories of rock mechanics, mining methods, and support technologies still lag behind engineering practice. In situations where deep resource exploitation has become the norm, it is necessary to conduct a systematic and in-depth study on the mechanisms of the above-mentioned disasters, and obtain dynamic disaster prediction methods as well as prevention means, so as to provide theoretical support and technical guarantees for the safe and efficient exploitation of deep resources.

The Special Issue focuses on advances in the most discussed areas of rock mechanics and rock engineering encompassing the fields of deep mining, tunneling, and geological engineering by means of theoretical analyses, numerical modeling, laboratory experiments, and in-situ investigations. We aim to provide a platform for experts and scholars in different fields related to rock excavation and engineering to report their new ideas, viewpoints, and findings. We welcome both original research and review articles.

Potential topics include but are not limited to the following:

  • Dynamic rock mechanical properties and fracture behavior in deep mining
  • Advances in experimental rock dynamics
  • Mechanisms and stability analysis theories of deep rock subjected to coupled static and dynamic stress conditions
  • Interactions between rock and support under complex stress circumstances
  • Innovative support techniques to withstand dynamic disasters in deep mining engineering
  • Rock burst theory, prevention, and control in coal and metal mines

Articles

  • Special Issue
  • - Volume 2022
  • - Article ID 7317247
  • - Research Article

Key Technology Research on the Rapid-Molding In-Closed Retaining-Wall in Filling Mining

Chaowen Hu | Qian Li | ... | Hui Liu
  • Special Issue
  • - Volume 2022
  • - Article ID 5377528
  • - Research Article

Application of a Microseismic Method of Rock Burst Risk Assessment under Blasting Mining in Ashele Copper Mine

Shida Xu | Xinlu Yang | ... | Jiaqi Liu
  • Special Issue
  • - Volume 2022
  • - Article ID 5147868
  • - Research Article

Characteristics and Mechanical Mechanism of In Situ Unloading Damage and Core Discing in Deep Rock Mass of Metal Mine

Peng Xiang | Hongguang Ji | ... | Yiwei Zhao
  • Special Issue
  • - Volume 2022
  • - Article ID 2461684
  • - Research Article

Thermal Property of Granite in Deep Strata and Its Effect on Thermal Zone of Surrounding Rock

Peng Xiang | Hui-Ci Xu | ... | Huan Wang
  • Special Issue
  • - Volume 2021
  • - Article ID 3869045
  • - Research Article

Experimental and Numerical Study of Strength and Failure Behavior of Precracked Marble under True Triaxial Compression

Yong Han | Yuemao Zhao | Jinglong Li
  • Special Issue
  • - Volume 2021
  • - Article ID 2217787
  • - Research Article

Effect of Pulsed Jet on Pore Pressure of Deep Formation Rock

Yong Wang | Hongjian Ni | ... | Ning Li
  • Special Issue
  • - Volume 2021
  • - Article ID 7170850
  • - Research Article

Research on In Situ Stress Distribution of the Railway Tunnels in Southwest China Based on the Complete Temperature Compensation Technology

Weibin Ma | Jinfei Chai | ... | Wei Cui
  • Special Issue
  • - Volume 2021
  • - Article ID 6165198
  • - Research Article

Experimental Study on Percolation Rate Characteristics of Gas-Filled Coal Bodies Based on True Triaxial Condition

Xiao Fukun | Shan Lei | ... | Xie Kai
  • Special Issue
  • - Volume 2021
  • - Article ID 4474895
  • - Research Article

Research on Mechanisms and Control Measures of Surrounding Rock Disaster in Large Section Roadway with Top Coal under the Influence of Tectonic Stress

Yang Yu | Jianfei Lu | ... | Cheng Chen
  • Special Issue
  • - Volume 2021
  • - Article ID 5386002
  • - Research Article

Numerical Analysis of Thermal Environment in Deep Mining

Qi Li | Shuang You | ... | Huan Wang
Shock and Vibration
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Acceptance rate52%
Submission to final decision78 days
Acceptance to publication22 days
CiteScore2.300
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Impact Factor1.616
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Article of the Year Award: Outstanding research contributions of 2021, as selected by our Chief Editors. Read the winning articles.