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EQUIPMENT AND MATERIALS
Название Experimental designs of a combined tool using superhard composite materials for effective destruction of mine rocks
DOI 10.17580/em.2018.01.05
Автор Dvornikov L. T., Klishin V. I., Nikitenko S. M., Korneyev V. A.
Информация об авторе

Federal State Educational Institution of Higher Professional Education «Siberian State Industrial University», Novokuznetsk, Russia:

Dvornikov L. T., Department Professor, Doctor of Technical Sciences
Korneyev V. A., Candidate of Technical Sciences, Laboratories’ Head

Institute of Coal of the Federal Research Center for Coal and Coal Chemistry, Siberian Branch of the Russian Academy of Sciences, Kemerovo, Russia:

Klishin V. I., Professor, Doctor of Technical Sciences, Principal
Nikitenko S. M., Professor, Doctor of Economics, Leading Researcher, nsm.nis@mail.ru

Реферат

The paper presents a combined tool using superhard composite materials used for boreholes (small diameter holes) drilling aimed at coal pre-fracturing intensification process studies results obtained in the project framework of the Federal target program on the topic: “Technology development for the effective coal deposit mining with a robotic complex using controlled release of the underroofing layer” (Agreement No. 14.604.21.0173). The superhard composite material properties are considered. New designs of rotary bits are proposed, one of their features is the use of combined cutting plates made of superhard composite materials. The experimental design mining tools bench test results are given, as well as the results of their use for drilling mine rock at Fletcher and Wombat standard drilling rigs. The article gives an estimation of the service life, drilling rate and drilling energy consumption by experimental design rotary bits. Conclusions and recommendations on the experimental design mining tool using possibility at significant temperatures in the cutting zone are formulated.

The article was prepared with participation of P. A. Korneyev, Geotechnology Department Laboratory Head of the Federal State Educational Institution of Higher Professional Education “Siberian State Industrial University”, Novokuznetsk, Russia.

Ключевые слова Mine rock destruction, drilling power consumption, rotary bit, superhard composite materials, tool enforcement, tool service life, drilling rate
Библиографический список

1. Toshov J. B., Shukurov M. K. Questions modeling of dynamics of drilling tools on the bottom hole. Austrian Journal of Technical and Natural Sciences. 2014. No. 1–2.
2. Toshov J. B., Steinert V. A. Dynamics of drill bits on the surface of the bottom hole. Scientific-technical and production journal “Uzbekistan Mining Herald”. Navoi. 2013. No. 3. pp. 125–127.
3. Klishin V. I., Gerike B. L., Gerike P. B. Assessment of efficiency of mining machines with cutting parts equipped with disk tools. Gornyi Zhurnal. 2015. No. 12. pp. 62–68. DOI: 10.17580/gzh.2015.12.14
4. Novikov N. V., Klimenko S. A. Superhard material tools. Edited by N. V. Novikov and S. A. Klimenko. Moscow : Mashinostroienie. 2014. p. 608.
5. Petrushin S. I. The fundamentals of shaping by cutting with blade tools. Tomsk : NTL Publisher. 2004. p. 204.
6. Anokhin A. S., Strelnikova S. S., Kukueva Ye. V., Shipkov A. N., Tkachenko V. V., Nikitenko S. M. Properties of largesize superhard composite blanks based on cubic boron nitride. Glass and Ceramics. 2015. No. 8. pp. 26–29.
7. Abaturov V. G. Physical and mechanical properties of mine rocks and rock-breaking drilling tools. Tiumen : “Oil-Gas University” publishing house. 2007. p. 238.
8. Kolodnits’kyi V. M., Bagirov O. E. On the structure formation of diamond-containing composites used in drilling and stone-working tools (A review). Journal of Superhard Materials. 2017. Vol. 39, Is. 1. pp. 1–17.
9. Nikitenko S. M., Kol’ba A. V., Anokhin A. S., Kukueva Ye. V. Prospects for using super-hard materials and wear-resistant alloys for rock-breaking tools. Glass and Ceramics. 2015. No. 12. pp. 27–34.
10. UCR Today. International Research Team Discovers New Mineral. Nearly as hard as diamond, qingsongite was found in Tibet by UC Riverside geologists. Available at: https://ucrtoday.ucr.edu/16729. (accessed: 22.02.2018)
11. Tian Y. , Xu B., Yu D., Ma Y., Wang Y., Jiang Y., Hu W., Tang C., Gao Y., Luo K., Zhao Zh., Wang L.-M., Wen B., He J., Liu Zh. Ultrahard nanotwinned cubic boron nitride. International Journal of Science Nature. 2013. Vol. 493. pp. 385–388.
12. Dubrovinskaia N., Solozhenko V. L., Miyajima N., Dmitriev V., Kura kevych O. O., Dubrovinsky L. Superhard nanocomposite of dense polymorphs of boron nitride: noncarbon material has reached diamond hardness. Appl. Phys. Lett. 2007. Vol. 90, Iss. 10.
13. Solozhenko V. L., Kurakevych O. O., Le G. Y. Creation of Nanostuctures by Extreme Conditions: High-Pressure Synthesis of Ultrahard Nanocrystalline Cubic Boron Nitride. Advanced materials. 2012. Vol. 24, Iss. 12. pp. 1540–1544.
14. Dvornikov L. T., Nikitenko S. M., Krestovozdvozhensky P. D., Korneyev V. A., Korneyev P. A. Main development trends and some technical decisions in mining tools equipped with super-hard composite materials inserts design. IOP Conf. Series: Earth and Environmental Science. 53. 2017. DOI: 10.1088/1755-1315/53/1/012031.
15. Kokoulin D. I. Drain hole drilling rigs. In: Kokoulin D. I., Kubanychbek B., Gurtenko A. P. Science-driven technologies for mineral exploration and mining. Novokuznetsk : Sibirskij gosudarstvennyj industrial'nyj universitet, 2016. pp. 360–363.
16. Drukovanny M. F., Dubnov L. V., Mindeli E. O., Ivanov K. I., Iliin V. I. Manual for drill and blast works. Moscow : Nedra, 1976. p. 631.

Полный текст статьи Experimental designs of a combined tool using superhard composite materials for effective destruction of mine rocks
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