Advances in Civil Engineering

Mitigation of Underground Engineering Disaster


Publishing date
01 Feb 2019
Status
Published
Submission deadline
21 Sep 2018

Lead Editor
Guest Editors

1China University of Mining &Technology, Xuzhou, China

2Colorado School of Mines, Golden, USA

3Anhui University of Science and Technology, Huainan, China


Mitigation of Underground Engineering Disaster

Description

With the rapid development of global economy, underground projects such as underground transportation, strategic storage, and mineral resource exploitation are increasing in scale and speed. Meantime, because of engineering disturbance and complex geological conditions, engineering geological disasters such as large deformation, rock burst, water-inrush, and surface subsidence occur frequently in the process of underground engineering and construction, causing casualties, equipment damage, project delay, engineering failure, and so on. Therefore, the disaster prevention and construction safety of underground engineering have become the focus of worldwide experts in the field of civil engineering.

This special issue aims to call for research papers and review articles concerning underground engineering under complex geological conditions, including theory analysis, laboratory experiments, and numerical simulations. The articles focusing on the stability mechanism and control technology of underground mineral resource exploitation are particularly welcomed.

Potential topics include but are not limited to the following:

  • Mechanical behavior of rock and rock-like materials
  • Characteristics of compaction, creep, and seepage of fractured rock mass
  • Theory and experiment of rock seepage and dynamics
  • Rock deformation mechanism and control technique in underground engineering
  • Catastrophic mechanism and prevention technique of water-inrush in underground engineering
  • Tunnel design and tunnel reliability assessment
  • Innovative techniques and applications of underground resource development
  • Study on numerical simulation methodology in rock engineering

Articles

  • Special Issue
  • - Volume 2018
  • - Article ID 1368965
  • - Research Article

Research on Deformation Mechanism of Retracement Channel during Fully Mechanized Caving Mining in Superhigh Seam

Liu Fei | Zhongxi Jiang
  • Special Issue
  • - Volume 2018
  • - Article ID 3210420
  • - Research Article

Safety Mining Technology of Coal Seams in Weathered Zone Based on Ground J-Type Pregrouting Reinforcement

Min Tu | Jinlong Cai | ... | Chuanxin Rong
  • Special Issue
  • - Volume 2018
  • - Article ID 7813931
  • - Research Article

Probabilistic Prediction of Mine Dynamic Disaster Risk Based on Multiple Factor Pattern Recognition

Tianwei Lan | Chaojun Fan | ... | Andrian Sergaevich Batugin
  • Special Issue
  • - Volume 2018
  • - Article ID 3031714
  • - Research Article

Shield-Roof Interaction in Longwall Panels: Insights from Field Data and Their Application to Ground Control

Jingyi Cheng | Zhijun Wan | Yinlin Ji
  • Special Issue
  • - Volume 2018
  • - Article ID 9784185
  • - Research Article

Tensile Failure Mechanism of Antiseepage System for Slope with Solid Waste Underground Landfill

Liu Fei | Zhongxi Jiang
  • Special Issue
  • - Volume 2018
  • - Article ID 4293584
  • - Research Article

Study on Catastrophe Instability of Support System in Gypsum Goaf Based on Energy Dissipation Theory

Yuejin Zhou | Xiaoding Xu | ... | Yugui Yang
  • Special Issue
  • - Volume 2018
  • - Article ID 6871820
  • - Research Article

Effect of Mining Thickness on Overburden Movement and Underground Pressure Characteristics for Extrathick Coal Seam by Sublevel Caving with High Bottom Cutting Height

Yongkang Yang | Yanrong Ma | ... | Xingyun Guo
  • Special Issue
  • - Volume 2018
  • - Article ID 7341523
  • - Research Article

Experimental Investigation on Permeability and Mechanical Deformation of Coal Containing Gas under Load

Runsheng Lv | Bing Li | ... | Gaofeng Liu
  • Special Issue
  • - Volume 2018
  • - Article ID 2801957
  • - Research Article

Study on Catastrophe Theory of Activation-Induced Prominence of Faults under Dynamic Disturbance

Yujun Zuo | Hao Wang | ... | Jian Wang
  • Special Issue
  • - Volume 2018
  • - Article ID 5280926
  • - Research Article

Emergency Trench Shoring and Rescue: A Simplified Method for Calculating Lateral Earth Pressures

Oliver-Denzil S. Taylor | S. Marie LaBaw
Advances in Civil Engineering
 Journal metrics
Acceptance rate41%
Submission to final decision98 days
Acceptance to publication40 days
CiteScore1.700
Journal Citation Indicator0.430
Impact Factor1.924
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