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This paper presents the current state of knowledge concerning the examination of the impact of increased temperatures on changes of geomechanical properties of rocks. Based on historical data, the shape of stress-strain characteristics that illustrate the process of the destruction of rock samples as a result of load impact under uniaxial compression in a testing machine, were discussed. The results from the studies on changes in the basic strength and elasticity parameters of rocks, such as the compressive strength and Young’s modulus were compared. On their basis, it was found that temperature has a significant effect on the change of geomechanical properties of rocks. The nature of these changes also depends on other factors (apart from temperature). They are, among others: the mineral composition of rock, the porosity and density. The research analysis showed that changes in the rock by heating it at various temperatures and then uniaxially loading it in a testing machine, are different for different rock types. Most of the important processes that cause changes in the values of the strength parameters of the examined rocks occured in the temperature range of 400 to 600C.
Wydawca
Czasopismo
Rocznik
Tom
Strony
45--51
Opis fizyczny
Bibliogr. 19 poz.
Twórcy
autor
- Interdisciplinary PhD Studies in the Field of Clean Coal Technologies, Central Mining Institute (Katowice, Poland)
autor
- Department of Rock Burst and Rock Mechanics, Central Mining Institute (Katowice, Poland)
autor
- Department of Post-Industrial Sites and Waste Management, Central Mining Institute (Katowice, Poland)
Bibliografia
- 1. Bukowska M. (2012): Skłonność górotworu do tąpań – geologiczne i geomechaniczne metody badań (The Susceptibility of Rock Mass to Rock burst – Geological and Geomechanical Testing Methods). Katowice, Główny Instytut Górnictwa.
- 2. Chen Y-L., Ni J., Shao W., Azzam R. (2012): An experimental study on the influence of temperature on the mechanical properties of granite under a uniaxial compression and fatigue loading. International Journal of Rock Mechanics & Mining Sciences Vol. 56, pp. 62–66.
- 3. Chmura K., Chudek M. (1992): Geotermomechanika górnicza (Mining Geothermomechanics). Mikołów, Księgarnia Naukowa „Suplement”.
- 4. Dengina N.I., Kazak V.N., Pristash V.V. (1993): Changes in Rocks at High Temperatures (in Russion). Fiziko-Techniczeskie Problemy Razrabotki Poleznych Iskopaemych nr 5, pp. 96–103.
- 5. Dimitriyev A.P., Kusyayev L.S., Protasov Y.I., Yamschichikov V.S. (1969): Physical Properties of Rocks at High Temperature (translated from Russian). Moskva, Nedra.
- 6. Hettema M.H.H., Wolf K.-H.A.A., Pater C.J. (1993): Thermo-mechanical properties of roof rock of coal for underground gasfication. Topics in Applied Mechanics, pp. 347–354.
- 7. Heuze F.E. (1983): High-temperature Mechanical, Physical and Thermal Properties of Granitic Rocks – A Review. International Journal of Rock Mechanics and Mining Science and Geomechanics, Abstracts 20, pp. 3–10.
- 8. Keshavarz M., Pellet F., Loret B. (2010): Damage and changes in mechanical properties of gabbro thermally loaded up to 1000C. Pure and Applied Geophysics Vol. 167, pp. 1511–1523.
- 9. Korzeniowski W., Skrzypkowski K. (2012): Badania zmian wybranych właściwości geomechanicznych skał pod wpływem temperatury do 1100C w aspekcie potencjalnych możliwości procesu podziemnego zgazowania węgla (Investigations of changes of selected geomechanical properties of rocks under the influence of temperature up to 1100C in the aspect of potential possibilities of the process of underground coal gasification). Przegląd Górniczy Vol. 68, No 5, pp. 44–53.
- 10. Małkowski P., Kamiński P., Skrzypkowski K. (2012): Impact of heating carboniferous rocks on their mechanical parameters. AGH Journal of Mining and Geoengineering Vol. 36, No 1, pp. 231–242.
- 11. Małkowski P., Skrzypkowski K., Bożęcki P. (2011): Zmiany zachowania się skał pod wpływem wysokich temperatur w rejonie georeaktora (Changes of rock behaviour under the influence of high temperatures in the vicinity of a georeactor). Prace Naukowe GIG. Górnictwo i Środowisko No 4/2, pp. 259–272.
- 12. Mao X., Zhang L., Li t., Li H. (2009): Properties of Failure Mode and Thermal Damage for Limstone at High Temperature. Mining Science & Technology No 19, pp. 0290–0294.
- 13. Pinińska J. (2007): Wpływ podwyższonej temperatury na właściwości mechaniczne skał (The effect of an Increased Temperature on the Mechanical Properties of Rocks) Prace Naukowe Instytutu Geotechniki i Hydrotechniki Politechniki Wrocławskiej No 76, Konferencje No 42, pp. 527–534.
- 14. Ranjith P.G., Daniel R., Bai Jie Chen, Samintha M., Perera A. (2012): Transformation plasticity and the effect of temperature on the mechanical behaviour of Hawkesbury sandstone at atmospheric pressure. Engineering Geology No 151, pp. 120–127.
- 15. Tian H., Kempka T., Schlűter R., Feinendegen M., Ziegler M. (2009): Influence of High Temperature on Rock Mass Surrounding in situ Coal Conversion Sites. 10th International Symposium on Environmental Geotechnology and Sustainable Development, Bochum.
- 16. Wu G., Wang Y., Swift G., Chen J. (2013): Laboratory Investigation of the Effects of Temperature on the Mechanical Properties of Sandstone. Geotechnical and Geological Engineering Vol. 31, April, pp. 809–816.
- 17. Zhang L., Mao X, Liu R., Guo X., Ma D. (2013): The Mechanical Properties of Mudstone at High Temperatures: an Experimental Study. Rock Mechanics and Rock Engineering, May.
- 18. Zhang L., Mao X., Lu A. (2009): Experimental Study on the Mechanical Properties of Rocks at High Temperature. Science in China Series E: Technological Sciences Vol. 52, No 3, March, pp. 641–646.
- 19. Zhi-jun W., Yang-Sheng Z., Yuan Z., Chong W. (2009): Re-search Status Quo and Prospection of Mechanical Characteristics of Rock under High Temperature and High Pressure. Procedia Earth and Planetary Science No 1, pp. 565–570.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f339b53d-ab35-4b79-bad0-5aaa29822124