Submit an Article
Become a reviewer
Vol 99
Pages:
31-35
Download volume:
RUS
Article

Electrical properties of coarse clastic frozen rocks of alluvial deposits

Authors:
N. V. Sokolova
N. I. Ryabets
Date submitted:
1983-07-28
Date accepted:
1983-09-21
Date published:
1984-12-06

Abstract

The study of the possibility of using electromagnetic fields of HF and UHF range for intensification of the development of frozen rocks of alluvial deposits requires, first of all, the determination of complex dielectric permeability, which allows us to assess the ability of frozen rocks to absorb electromagnetic energy of different frequencies, quantitatively describe the processes of their heating by electromagnetic fields, creates a basis for the selection and calculation of parameters of electrothermal devices.

Область исследования:
(Archived) Without section
Funding:

None

Go to volume 99

References

  1. Taibashev V.N. Physico-mechanical properties of frozen coarse-clastic rocks. - Proceedings of VNII-1, Magadan, 1973, vol. 77.
  2. Tischer F. Technique of Measurements at Ultrahigh Frequencies. M., Fizmatgiz, 1963.
  3. Frolov A.D. Electrical and Elastic Properties of Large Clastic Rocks. M., Nedra, 1976.
  4. Hippel A.R. Dielectrics and their Application. Moscow, Gosenergoizdat, 1959.

Similar articles

Definition of optimum degree of crushing granite massif by explosion on crushed stone quarries
1984 V. P. Makaryev, V. A. Mikhailov
Design schemes of working bodies of machines for non-explosive destruction of oversized rocks
1984 P. F. Korsakov, S. L. Ivanov
Asymptotic small heat conduction solution of the Stefan problem of permafrost thawing in an electromagnetic field
1984 L. E. Rickenglaz
Experience in the use of non-stroked water-containing explosives in industrial conditions
1984 A. N. Khanukaev, V. S. Kulikov, A. N. Karasev, A. N. Monakhov
Method of determining the equation of state of rocks
1984 S. V. Krasavin, S. V. Tsirel
Investigation of rock fracture peculiarities under conditions of complex stress state
1984 S. A. Kozyrev, S. V. Lukichev, D. S. Podozersky