Submit an Article
Become a reviewer
Vol 148 No 1
Pages:
172-174
Download volume:
RUS
Research article
Without section

Mechanized method for the preparation of granulite-Zh and the results of its pilot tests

Authors:
V. A. Borovikov1
I. A. Dibrov2
A. A. Ryskunov3
A. V. Kurushkin4
About authors
  • 1 — Saint Petersburg Mining University
  • 2 — Saint Petersburg Mining University
  • 3 — Saint Petersburg Mining University
  • 4 — Saint Petersburg Mining University
Date submitted:
2000-06-12
Date accepted:
2000-07-16
Date published:
2001-01-01

Abstract

Explosive blasting of dry granite massifs in the quarries of the Leningrad region is currently carried out with standard explosives: ammonite and grammonite 79/21 (82/18). Explosive blasting of watered massifs is carried out with 30/70 and 50/50 grammonite, granulotole and conercial explosives of granipor type. The experience of our foreign northern neighbors has shown that under similar conditions safer and cheaper ANFO-type non-trinitrotoluene compositions and other water-emulsion explosives can be successfully used. Switching to these explosives allows to refuse the expensive transportation of dangerous cargoes over long distances, as they can be prepared on site. The first experience of application of locally prepared no-trinitrotoluene explosives has been carried out at several granite pits of Vyborgsky District of the Leningrad Region and Kamennogorsk. As the simplest explosive the granulite-Zh developed by the authors was used (patent No.2088559 with the priority of invention of 1992). Granulite-G is an explosive composition with the averaged chemical formula C 4.0-5.0 H 8.0-9.0 N 0.04-0.08 O with the following proportions of components by weight, %: ammonium nitrate - 80-95; fatty protein additive - 5-20.

Go to volume 148

Similar articles

Methods of charging explosive wells with aquatrinitrotoluene
2001 V. A. Sinitsyn, V. G. Shemenev, A. S. Matorin, A. A. Kotyashev
Modern physical and technical problems of rock fracture (based on research supported by the Russian Foundation for Basic Research and the work of leading institutions in Russia and several CIS countries)
2001 K. N. Trubetskoi, S. D. Viktorov
Analysis of explosive characteristics of water-containing explosives with reduced TNT content
2001 D. S. Podozerskii, S. A. Edigarev, E. A. Vlasova
Technological opportunities to improve properties of blended explosives based on experience in Mongolia and Yugoslavia (Serbia)
2001 Dragan Petrovich B., Zh. Zhamyan, A. V. Starshinov, V. Yu. Fadeev
Ways of expanding the range of industrial explosives and methods of controlling their energy characteristics
2001 I. A. Ryzhukhin, A. A. Ivanov
Specific energy consumption at different levels of rock fracturing
2001 B. R. Rakishev, M. S. Kushpanov