Evolution, Monitoring and Predicting Models of Rockburst, Softcover reprint of the original 1st ed. 2018 Precursor Information for Rock Failure
Auteur : Wang Chunlai
This open access book focuses on investigating predicting precursor information and key points of rockburst in mining engineering through laboratory experiment, theoretical analysis, numerical simulation and case studies. Understanding the evolution patterns for the microstructure instability of rock is a prerequisite for rockburst prediction. The book provides a guide for readers seeking to understand the evolution patterns for the microstrucure of rock failure, the predicting key point of rock failure and the rockburst predicting model. It will be an essential reference to understand mechanism of rockburst and sheds new light on dynamic disasters prediction. Chapters are carefully developed to cover (1) The evolution patterns for the microstructure instability of rock; (2) Rockburst hazard monitoring and predicting criterion and predicting models. The book addresses the issue with a holistic and systematic approach that investigates the occurrence mechanism of rockburst based on the evolution patterns for the microstructure of rock failure and establishes the predicting model of rockburst.
This book will be of interest to researchers of mining engineering, rock mechanics engineering and safety engineering.
Introduction.- Experimental Materials and Equipment.- The Mechanism and Predicting Theory-Based Rockburst Evolution.- Three-dimensional Reconstruction Model and Numerical Simulation of Rock Fissures.- The Patterns of Dynamic Evolution of Cracks in Rock Failure.- Experiment Investigation of AE Precursor Information for Rockburst.- Experimental Investigations on Multi-means and Synergistic Prediction for Rockburst.- Predicting Model of Rockburst Based on Nondeterministic Theory.- Field Case.
Dr. Chunlai Wang graduated from Heibei Polytechnic University in 2001 and he obtained his PhD of Mining Engineering from University of Science and Technology Beijing in 2011. He works as associate professor in the Faculty of Resources and Safety Engineering, China University of Mining & Technology Beijing, China, and he is now the associate director of the department of Department of Resources Engineering. In 2015-2016, he commenced his research in the University of British Columbia, as a visiting scholar. In 2012, he was awarded the National Youth Science and Technology Award from China Coal Society. He took charge of more than 10 national scientific projects including the National Natural Science Foundation of China (NSFC). His research interests focus mainly on predicting of mine dynamic hazards, predicting model and criterion, and reinforced technology for 16 years. Up to now, he has published over 50 academic papers and holds 8 patents in China, in which more than 15 English papers were published in International Journal of Rock Mechanics and Mining Sciences, etc. He has also authored a number of books and book chapters including Microseismic Monitoring Predicting and Reinforced Technology of Dynamic Hazards in Deep Mining (Beijing: Metallurgical Industry Press, 2013). He has won 6 National or Provincial Science and Technology Progress Awards.
Investigates the dynamic evolution patterns of rockburst
Provides the growth factor model of rock cracks
Explains the acoustic emission time-space-frequency-energy evolution model of rock rupture plane
Includes new methods of identifying the predicting key point of rockburst and the synergetic predicting model of rockburst using multi measures monitoring
Establishes the predicting model of rockburst on Bayesian and Fuzzy matter-element nondeterministic theory
Includes supplementary material: sn.pub/extras
Date de parution : 01-2019
Ouvrage de 188 p.
15.5x23.5 cm
Disponible chez l'éditeur (délai d'approvisionnement : 15 jours).
Prix indicatif 52,74 €
Ajouter au panierDate de parution : 02-2018
Ouvrage de 188 p.
15.5x23.5 cm
Disponible chez l'éditeur (délai d'approvisionnement : 15 jours).
Prix indicatif 52,74 €
Ajouter au panierThèmes d’Evolution, Monitoring and Predicting Models of Rockburst :
Mots-clés :
AE experiment of rock under uniaxial cyclic load/unload; Three-dimensional reconstruction of fissured rock; Nonlinear dynamics evolution pattern of rock cracks; Construction of crack growth factor model; Construction of information entropy evolution model; predicting key points; Bayesian model for predicting rockburst; Fuzzy matter-element model for predicting rockburst; Tangent Damage Factor identification predicting of rockburst; Tangent Modulus identification predicting of rockburst; Time-space-frequency-energy evolution patterns of rock failure; Decreased information entropy value predicting of rockburst; Decreased b value predicting patterns of rockburst; Load/unload response ratio predicting of rockburst; Infrared radiation precursor predicting of rockburst; Cumulative apparent volume and MS rate predicting of rockburst; Case studies: predicting method of rockburst; Open Access