STUDY OF THE FORMATION OF MICROCRACKS AND THE POSSIBILITY OF DESTRUCTION OF MINERALS AFTER ULTRASONIC TREATMENT

Azimov O.A.,Kurbonova Sh.R.

Vol. 11 No. 03 (2024)
International Multidisciplinary Journal for Research & Development (IMJRD)

Articles

STUDY OF THE FORMATION OF MICROCRACKS AND THE POSSIBILITY OF DESTRUCTION OF MINERALS AFTER ULTRASONIC TREATMENT

Published 2024-03-15

Azimov O.A.,Kurbonova Sh.R.

Azimov O.A.,Kurbonova Sh.R.
Candidate of technical sciences, Associate professor, Navoi State University of Mining and Technologies,Postgraduate student, Navoi branch Academy of Science

How to Cite

Azimov O.A.,Kurbonova Sh.R. (2024). STUDY OF THE FORMATION OF MICROCRACKS AND THE POSSIBILITY OF DESTRUCTION OF MINERALS AFTER ULTRASONIC TREATMENT. International Multidisciplinary Journal for Research & Development, 11(03). Retrieved from http://www.ijmrd.in/index.php/imjrd/article/view/1156

Download Citation

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Abstract

In the realms of scientific and practical studies, minerals exhibit a wide range of applications and various reactions. Understanding their characteristics and developmental processes, as well as identifying harmful elements within them and how to assess them using ultrasonic techniques, constitute crucial issues in the scientific field. Ultrasonic methods play a significant role in implementing various procedures on minerals. These methods influence the molecular structure of mineral materials and can alter their specific properties. In this context, the study of microcrack formation on minerals and the potential for their destruction is of paramount importance. Investigating the formation of microcracks on minerals through ultrasonic methods provides invaluable insights into theoretical and practical concepts of mineral development. These features contribute extensively to the demonstration of technical experiments and laboratory conditions in the exploration of mineral characteristics.

Keywords

Ultrasonic techniques, technical experiments, technical experiments, crucial issues, microcracks.

DOWNLOAD PDF CERTIFICATE

References

Bauer, S.J.; Song, B.; Sanborn, B. Dynamic Compressive Strength of Rock Salts. Int. J. Rock Mech. Min. Sci. 2019, 113, 112–120.
He, M.C.; Xie, H.P.; Peng, S.P.; Jiang, Y.D. Study on Rock Mechanics in Deep Mining Engineering. Chin. J. Rock Mech. Eng. 2005, 24, 2803–2813
Qian, Q.H. Challenges Faced by Underground Projects Construction Safety and Countermeasures. Chin. J. Rock Mech. Eng. 2012, 31, 1945–1956
Mishra, S.; Khetwal, A.; Chakraborty, T. Dynamic Characterisation of Gneiss. Rock Mech. Rock Eng. 2019, 52, 61–81
Tong, L.H.; Yu, Y.; Lai, S.K.; Lim, C.W. Dynamic Weakening of Sandstone Subjected to Repetitive Impact Loading. Rock Mech. Rock Eng. 2019, 52, 2197–2206.
Han, T.L.; Shi, J.P.; Cao, X.S. Fracturing and Damage to Sandstone under Coupling Effects of Chemical Corrosion and Freeze–Thaw Cycles. Rock Mech. Rock Eng. 2016, 49, 4245–4255
Hassanzadeh, H.; Pooladi-Darvish, M.; Keith, D. Scaling behavior of convective mixing, with application to geological storage. Am. Inst. Chem. Eng. J. 2007, 53, 1121–1131

Downloads

Download data is not yet available.