Study of the properties of drill cuttings at their use as technogenic raw materials for the production of building ceramics
ŠŠ°Š½ŃŠ°Š¶ŠøŃŃŃŃ...
ŠŠ°ŃŠ°
2020
DOI
doi.org/10.21303/2313-8416.2020.001158
ŠŠ°ŃŠŗŠ¾Š²ŠøŠ¹ ŃŃŃŠæŃŠ½Ń
Š ŃŠ²ŠµŠ½Ń Š“ŠøŃŠµŃŃŠ°ŃŃŃ
ŠØŠøŃŃ ŃŠ° Š½Š°Š·Š²Š° ŃŠæŠµŃŃŠ°Š»ŃŠ½Š¾ŃŃŃ
Š Š°Š“Š° Š·Š°Ń ŠøŃŃŃ
Š£ŃŃŠ°Š½Š¾Š²Š° Š·Š°Ń ŠøŃŃŃ
ŠŠ°ŃŠŗŠ¾Š²ŠøŠ¹ ŠŗŠµŃŃŠ²Š½ŠøŠŗ
Š§Š»ŠµŠ½Šø ŠŗŠ¾Š¼ŃŃŠµŃŃ
ŠŠøŠ“Š°Š²ŠµŃŃ
Scientific Route OĆ, Estonia
ŠŠ½Š¾ŃŠ°ŃŃŃ
The possibility of utilizing drill cuttings in the technology of building ceramics is investigated. Using the microscopic and X-ray spectral methods of analysis, the chemical and mineral composition and radiological properties of two samples of drill cuttings ā waste gas drilling in the Poltava region ā are determined. Using the bioindication method, it is established that the studied drill cuttings are phytotoxic and harm the environment, therefore, they need to be disposed of. According to the radioactivity, the cuttings are investigated, they belong to the materials of the 1st class, which allows using them without restrictions in the construction and production of building materials. The main ceramic-technological characteristics of the cuttings are determined. It is established that one of the cuttings in its composition is pre-burning and burning properties similar to clay rocks, the second cutting is unsintered psammite-aleuropelite material with a high content of calcium and magnesium carbonates, quartz and feldspar. The fundamental possibility of using the studied drill cuttings as the main raw material and mineral additives in the compositions of the masses to obtain wall ceramics with the necessary consumer properties is established.
ŠŠæŠøŃ
ŠŠ»ŃŃŠ¾Š²Ń ŃŠ»Š¾Š²Š°
drilling, drill cuttings, ceramic products, environmental pollution, biotesting, raw materials, mineral and chemical composition, particle size distribution, sintering
ŠŃŠ±Š»ŃŠ¾Š³ŃŠ°ŃŃŃŠ½ŠøŠ¹ Š¾ŠæŠøŃ
Study of the properties of drill cuttings at their use as technogenic raw materials for the production of building ceramics / N. Rykusova [et al.] // ScienceRise. ā 2020. ā ā 1 (66). ā P. 10-22.