Innovative methods of the rock massif fractures syrvay and treatment of its results
Authors:
M.B.Nurpeisova, Dr. Sci. (Tech.), Professor, Kazakh National Research Technical University of K.I.Satpayev, Almaty, Kazakhstan, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.; This email address is being protected from spambots. You need JavaScript enabled to view it.; This email address is being protected from spambots. You need JavaScript enabled to view it.
D.M.Kirgizbayeva, Kazakh National Research Technical University of K.I.Satpayev, Almaty, Kazakhstan, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.; This email address is being protected from spambots. You need JavaScript enabled to view it.; This email address is being protected from spambots. You need JavaScript enabled to view it.
K.Kopzhasaruly, Kazakh National Research Technical University of K.I.Satpayev, Almaty, Kazakhstan, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.; This email address is being protected from spambots. You need JavaScript enabled to view it.; This email address is being protected from spambots. You need JavaScript enabled to view it.
Abstract:
Structural features of a rock massif are one of the most important factors determining the geomechanical processes. The method of their study was limited mainly to the direct measurements in outcrops at the surface, on the slopes of quarries and mines by a mining compass. Nowadays, mine surveying employs modern electronic devices such as 3D scanner and others. A laser scanner can be used to capture possible fracture if the device is arranged within 300 meters from the massif. One of the major advantages of the laser scanning is the possibility of obtaining information on the status of dip fractures and the size of structure blocks without direct contact of the worker with the massif. In addition, the laser scanner can be used in iron-ore opencast mines, unlike the mining compass.
Purpose. Development of the surveying method based on 3D laser scanning in opencast mines, which will reduce the measurement time and allow creation of three-dimensional models of ore bodies taking into consideration their structure.
Methodology. The research employed the surface laser scanning of rock fractures in opencast mines, collecting data in real time and computer analysis of the results.
Findings. Methods of terrestrial laser scanning for obtaining data on geometrical parameters of opencast mines, crack occurrence and faults have been developed.
Originality. The new method of surveying the structural features of a rock massif based on 3D laser scanning allows for instant three-dimensional visualization of the survey results with a high information content, precision and productivity.
Practical value. The new method is intended to create a 3D model of a dip fracture, fault and ore body reflecting its structure.
References / Список літератури
1. Nurpeisova, M.B. and Kyrgizbayev, G.M., 2014. Marksheiderskiy monitoring pribortovykhmassivov [Surveying of near edge zone of a rock massif]. Almaty:KazNTU.
Нурпеисова М.Б. Маркшейдерский мониторинг прибортовых массивов / Нурпеисова М.Б., Кыргизбаева Г.М. – Алматы: КазНТУ, 2014. − 280с.
2. Shapar, A.G., Polishchuk, S.Z., Golub, V.V., Rams, Yu.D.and Shurygin, V.D.,2004.Scientific notion about location and form of the displacement surface in massifs of soil and rocks.Nauchnye Otkrytiya, Issue 2, pp. 55−56.
Научная идея о местоположении и форме поверхности сдвижения в массивах грунта и горных пород / А.Г. Шапарь, С.З. Полищук, В.В. Голуб [и др.] // Научные открытия. – М.: Сударыня, 2004. − Вып.2. − С.55−56.
3. Kasymkanova, H.M., 2006. The major factors influencing the slopesstability of “Vostochnyi”opencast mine in the Akzhalsky field.Gornyi Zhurnal Kazakhstana, no. 4, pp. 18–20.
Касымканова Х.М. Основные факторы, влияющие на устойчивость бортов карьера «Восточный» Акжалского месторождения / Х.М. Касымканова // Горный журнал Казахстана. – Алматы, 2006. − №4. − С. 18–20.
4. Ipalakov, T.T., Apshikur, B., Nurzhumin, E.K., 2014. Experience of application of probabilistic methods when calculating stability of ledges and boards of pits. Vestnik VKGTU im. D. Serikbayev, no. 2, pp. 7–11.
Ипалаков Т.Т. Опыт применения вероятностных методов при расчете устойчивости уступов и бортов карьеров / Т.Т. Ипалаков, Б. Апшикур, Е.К. Нуржумин // Вестник ВКГТУ им. Д. Серикбаева. − 2014. − №2. – С. 7−11.
5. Nurpeisova, M.B., 2012. Geomekhanika rudnykh mestorozhdeniy Kazakhstana [Geomechanics of ore fields of Kazakhstan]. Almaty: KazNTU.
Нурпеисова М.Б. Геомеханика рудных месторождений Казахстана: монография / Нурпеисова М.Б. − Алматы: КазНТУ, 2012. − 324 с.
6. Kasymkanova, H.M., 2006. Forecasting of stability of boards of pits. In: Materials XVI of the International school of sciences named after Academician S.A. Hristanovich. Crimea, Alushta, pp. 211–214.
Прогнозирование устойчивости бортов карьеров: материалы XVI Международной научной школы им. Академика С.А. Христановича / Касымканова Х.М. [и др.] − Алушта, 2006. – С. 211–214.
7. Publishing house Education and Sciences. r.o. [online]. Available at: <http://www.rusnauka.com/11._NPRT_2007/Tecnic/22161.doc.Htm> [Accessed 17 March 2015].
8. TechBase [online]. Available at: www.techbase.eu/ru/ [Accessed 17 March 2015].
9. SRK Consulting, Geological modeling [online] SRK. Available at: www.kz.srk.com/ru/geologicheskoe-modelirovanie [Accessed 17 March 2015].
10. Yershov, V.V. and Dremukh, A.S., 1990. Avtomatizatsyya geologo-marksheiderskikh graficheskikh rabot [Automation of geological and surveying graphic works]. Moscow.
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