Submit an Article
Become a reviewer
Vol 185
Pages:
64-67
Download volume:
RUS

Physical modeling of energy exchange in rock mass

Authors:
E. V. Lodus1
E. V. Goncharov2
About authors
  • 1 — Ph.D., Dr.Sci. Chief Research assistant Saint Petersburg State Mining Institute (Technical University)
  • 2 — senior research assistant Saint Petersburg State Mining Institute (Technical University)
Date submitted:
2009-07-23
Date accepted:
2009-09-09
Date published:
2010-01-01

Abstract

The cause of manifestation of dangerous dynamic phenomena, such as rock bursts, earthquakes, etc., appears to be the energy exchange in rock mass. The inaccessibility of rock mass for carrying out the full-scale observations has stimulated to study this problem with using the methods of laboratory modeling. Description is given to the substance of energy exchange in situ, the principles of its physical modeling in the laboratory, to the test equipment as well as to some results of our investigations.

Keywords:
rock mass dangerous dynamic phenomena energy exchange rock failure rock specimens laboratory tests physical modeling
Go to volume 185

References

  1. Ставрогин А.Н. Прочность горных пород и устойчивость выработок на больших глубинах / А.Н.Ставрогин, А.Г.Протосеня. М.: Недра, 1985. 271 с.
  2. Соболев Г.А. Физика землетрясений и предвестники / Г.А.Соболев, А.В.Пономарев. М.: Наука, 2003. 270 с

Similar articles

Determination of indices of strength certificate оf rocks using the method of specimens failure with spherical indentors
2010 V. A. Korshunov, Yu. M. Kartashov, V. A. Kozlov
Methods for presetting of artificial yielding to anthracite pillars
2010 S. G. Stradanchenko, N. V. Titov, Yu. V. Turuk
Calculation of supports of parallel workings divided with yieldable pillars at anthracite seams
2010 S. G. Stradanchenko, N. V. Titov, A. A. Privalov, Yu. V. Turuk
Provision of safe coal mining with due account оf cleanup works at adjacent seams
2010 M. A. Ilyashov
Bulgarian coal industry in market economy
2010 Tzolo Voutov
Development of geothermal resources – higher efficiency in utilization of the earth’s interior
2010 E. I. Boguslavsky