Titlebook: Rockburst Evolutionary Process and Energy Dissipation Characteristics; Dazhao Song,Xueqiu He,Jie Liu Book 2020 Springer Nature Singapore P

要旨

书目名称Rockburst Evolutionary Process and Energy Dissipation Characteristics影响因子(影响力)




书目名称Rockburst Evolutionary Process and Energy Dissipation Characteristics影响因子(影响力)学科排名




书目名称Rockburst Evolutionary Process and Energy Dissipation Characteristics网络公开度




书目名称Rockburst Evolutionary Process and Energy Dissipation Characteristics网络公开度学科排名




书目名称Rockburst Evolutionary Process and Energy Dissipation Characteristics被引频次




书目名称Rockburst Evolutionary Process and Energy Dissipation Characteristics被引频次学科排名




书目名称Rockburst Evolutionary Process and Energy Dissipation Characteristics年度引用




书目名称Rockburst Evolutionary Process and Energy Dissipation Characteristics年度引用学科排名




书目名称Rockburst Evolutionary Process and Energy Dissipation Characteristics读者反馈




书目名称Rockburst Evolutionary Process and Energy Dissipation Characteristics读者反馈学科排名

Condescending

Introduction,lopment Strategy (2030–2050) by the Chinese Academy of Engineering, China’s coal production will reach a peak of 3.4–3.8 billion tons in 2020–2030 [2]. In a long period of time, coal will still be the main or dominant energy source of China, and coal production and consumption will continue to grow.

EXULT

Time-Domain Features of Energy Dissipation of Coal Rock at Failure, EM energy and dissipated energy of coal rocks during their failure process, experimentally studies the relationship of the coal rocks subject to uniaxial compression loading, and further explores the time-domain characteristics of energy dissipation of this process, as well as the main influencing factors.

NUL

intrigue

领巾

Coal and Rock Deformation, Failure Mechanism, and Energy Conversion,ics and macroscopic failure mechanism of coal and rock mass, is aimed to analyze the macroscopic and microscopic mechanisms of coal and rock deformation and failure as well as the type of energy and its conversion behaviors in this process.

改变立场

Conclusions and Prospects,tion process of the rock burst activity domain system (RADS), the dynamic pressure-type rock burst evolution model established for the RADS, and the model-based evolution behaviors of both stress and energy fields after the pressure relief of the RADS; and (3) verifies them on field. The main research results are summarized as follows:

FER

Spatiotemporal Evolution of RADS Based on Energy Dissipation, thermodynamic entropy and entropy change equation. We then analyze the spatiotemporal characteristics of the two-dimensional entropy change and energy dissipation. At last, we discuss the evolution process of the main RADS (MRADS) based on the dissipative structure theory.

壮观的游行

Evolution Model for Dynamic Pressure-Type Rock Bursts in RADS, from the energy point of view, construct and numerically simulate the model for RADS’s dynamic pressure-type rock burst evolution, and study the characteristic evolution behaviors of the RADS based on the model by using the on-the field EM radiation data.

无畏