| Article |
|---|
| Article name |
THE INTEGRATION MODEL OF INTERDISCIPLINARY LINKS WITH THE INCLUSION OF A NEW SCIENTIFIC DISCIPLINE “MINING ENGINEERING MECHANICS OF MATERIALS” |
| Authors |
Gerasimov V.. , Sekisov G.. , Cheban A.. candidate of technical sciences, associate professor, senior researcher, chebanay@mail.ru |
| Bibliographic description |
|
| Category |
Earth science |
| DOI |
622.553 |
| DOI |
10.21209/2227-9245-2019-25-6-14-20 |
| Article type |
scientific |
| Annotation |
The necessity and expediency of forming and introducing into the educational process a new profile scientific and educational discipline “mining resistance of materials” to ensure the integration model of interdisciplinary connections in the complex of studying the physical and mechanical properties and strength characteristics of rocks with the aim of improving the quality of training mining engineers is observed in the article.
The formation of a new discipline is due to the presence of gaps in the knowledge of university graduates, caused by general knowledge of the strength of materials represented by the classical discipline “resistance of materials” and the lack of studying the strength of rocks. At the same time, knowledge is synthesized into elements-complexes, which are transferred from one discipline to another, increasing the capacity of the transmitted information.
Creating an integration model of links between disciplines: rock physics - materials resistance – mining technical materials resistance – geomechanics is an innovative process of expanding and strengthening the knowledge of a future mining engineer.
The new discipline reflects the main features of such a very wide and specific field of research and production activities as subsoil use. At the same time, the objects of study of the discipline are defined: material bodies and materials, force effects on rocks, a system complex of deformations.
The composition of the discipline itself is presented: the subsoil use as a whole and its main component – the subsoil mineral exploitation; system complex of materials, including both rocks and mountain ranges; major deformations of rocks as objects, as well as in contact with working bodies of mining machines.
An exemplary structure of the discipline with the allocation of sections and their justification, where there is a close relationship with the teaching materials of solid state physics, the resistance of materials, geomechanics
|
| Key words |
Key words: integration model; scientific and educational discipline; mining and technical resistance of materials; objects of study; composition; content of the discipline; innovation process; rocks; massifs; deformations |
| Article information |
Gerasimov V., Sekisov G., Cheban A. The integration model of interdisciplinary links with the inclusion of a new scientific discipline “Mining engineering mechanics of materials” // Transbaikal State University Journal, 2019, vol. 25, no.6, pp.14-20 |
| References |
References
1. Agoshkov M. I. Razvitie idey i praktiki kompleksnogo osvoeniya nedr (The development of ideas and practices of integrated development of mineral resources). Moscow: IPKON Academy of Sciences of the USSR, 1982.
2. Bagin V. V., Burilova S. Yu. Aktualnye problemy professionalnogo obrazovaniya: opyt, perspektivy, sostoyanie, tendentsii: mezhdunarodny sbornik nauchnyh trudov (Actual problems of vocational education: experience, prospects, condition, trends: international collection of scientific papers). Moscow: MGOU, 2004. vol. 1.
3. Gornye nauki. Osvoenie i sohranenie nedr Zemli (Mining sciences. Development and preservation of the Earth’s interior) / ed. K. N. Trubetskoy. Moscow: Publishing House of the Academy of Mining Science, 1997. 477 p.
4. Zharikov V. A. Vestnik Rossiyskoy akademii nauk (Bulletin of the Russian Academy of Sciences), 1995, no. 5, pp. 416–429.
5. Myazin V. P., Shumilova L. V. Vestnik Zabaykalskogo regionalnogo otdeleniya RAЕN (Bulletin of the Transbaikal Regional Branch of the Russian Academy of Natural Sciences), 2013, no. 1, pp. 4–13.
6. Terekhova T. A. Innovatsionny potentsial cheloveka kak resurs sotsialno-ekonomicheskogo razvitiya regiona: materialy nauchno-prakticheskoy konferentsii (Innovative potential of a person as a resource for the socio-economic development of a region: materials of a scientific-practical conference), Chita, 2010, pp. 6–14.
7. Trubetskoy K. N., Vasilchuk M. P., Chanturia V. A. Gorny zhurnal (Mining Journal), 1995, no. 7, pp. 17–21.
8. Cahn R. W. The coming of materials Science (The coming of materials Science). Elsevier Science Ltd., 2001. 598 p.
9. Pearse G. Mining rec (Mining rec), 1985, vol. 153, no. 1, pp. 36–45.
10. Schiller Е. А. (Mining mag), 1980, Jan, pp. 36–41.
|
| Full article | THE INTEGRATION MODEL OF INTERDISCIPLINARY LINKS WITH THE INCLUSION OF A NEW SCIENTIFIC DISCIPLINE “MINING ENGINEERING MECHANICS OF MATERIALS” |
