DEVELOPMENT OF COMPOSITIONS AND RESEARCH OF METHODS FOR INCREASING THE STRENGTH PROPERTIES OF ORGANOMINERAL THERMOPLASTICS

Ziyamukhamedov  Javohirbek; Tadjikhodjaev  Zakirkhodja

In this article presented the results of a study on improving the mechanical properties of composite materials based on polyethylene. A composition materials filled with a thermoplastic polymer - polyethylene modified with a kaolin-graphite filler is proposed, which will allow obtaining high-quality products based on local raw materials, simplifying the material composition, and expanding their performance due to improved strength and tribotechnical properties. On the basis of the studies carried out, pipes for the branch parts of oil collection tanks were obtained, which were tested under production conditions.

Название журналаИнновацион технологиялар
Номер выпуска2023/1(49)
Количество просмотров 31

Ссылка в интернете

DOI

Дата создание в систему UzSCI 12-05-2024

Количество прочтений 31

Дата публикации 14-06-2023

Язык статьиIngliz

Страницы61-66

Ключевые слова

polyethylene

kaolin

filler

graphite

organo-mineral material

English

In this article presented the results of a study on improving the mechanical properties of composite materials based on polyethylene. A composition materials filled with a thermoplastic polymer - polyethylene modified with a kaolin-graphite filler is proposed, which will allow obtaining high-quality products based on local raw materials, simplifying the material composition, and expanding their performance due to improved strength and tribotechnical properties. On the basis of the studies carried out, pipes for the branch parts of oil collection tanks were obtained, which were tested under production conditions.

Ключевые слова

polyethylene

kaolin

filler

graphite

organo-mineral material

№ Имя автора Должность Наименование организации

1 Ziyamukhamedov .. - independent applicant Tashkent Scientific Research Institute of Chemical Texnology Tashkent

2 Tadjikhodjaev .. – independent scientific Center for Introduction and Development of Information and Communication Technologies, Tashkent

№ Название ссылки

1 1. Denis A. Gulin, Kseniya E. Karpova, Anton S. Glazkov. On application of pipes from polymer materials for field pipelines. Petroleum engineering. 2020, т. 18, № 6. DOI: 10.17122/ngdelo-2020-6-107-115.

2 2. Козодоев J.B., Якубовская C.B., Красников М.А., Перов В.К., Красовская Н.И. Экспериментальные исследования многослойных армированных полиэтиленовых труб // Газовая промышленность, 2002, №11.

3 3. Пепеляев B.C., Тараканов А.И. Полиэтиленовые трубы, армированные синтетическими нитями для нефтепромысловых трубопроводов// Интервал. Передовые нефтегазовые технологии, №9, 2006, с. 33-37.

4 4. Пепеляев B.C., Тараканов А.И. Полиэтиленовые армированные трубы для газопроводов с рабочим давлением свыше 1,2 Мпа // Полимергаз, № 4, 2006, с. 14-18.

5 5. Пепеляев B.C., Тараканов А.И. Выбор методики испытаний промысловых трубопроводов из полиэтиленовых армированных синтетическими нитями труб // Оборудование и технологии для нефтегазового комплекса, № 3, 2007, с 78-80.

6 6. Miradullaeva, G., Rakhmatov, E., Bozorov, O., Ziyamukhamedova, U., Shodiev, B. Mathematical Modeling of Rheological Properties During Structure Formation of Heterocomposite Potting Materials and Coatings and Their Application. Lecture Notes in Civil Engineeringthis link is disabled, 2021, 150 LNCE, стр. 346–355

7 7. Ziyamukhamedova, U., Rakhmatov, E., Nafasov, J. Optimization of the composition and properties of heterocomposite materials for coatings obtained by the activation-heliotechnological method. Journal of Physics: Conference Seriesthis link is disabled, 2021, 1889(2), 022056

8 8. Ziyamukhamedova, U., Djumabaev, A., Urinov, B., Almatayev, T. Features of structural adaptability of polymer composite coatings. E3S Web of Conferences, 2021, 264, 05011

9 9. Ibadullaev A., Negmatova D., Teshabaeva E. Radiation resistanct of filled elastomer compositions. IOP Cjnf. Series: Earth and Environmental Science 808 (2021) 012043

10 10. Yusupbekov, A.Kh., Ibadullaev, A., Abdurashidov, T.R., Akhmedov, K.S. 1988 International Symposium on Flow-Induced Vibration and Noise.Acoustic Phenomena and Interaction in Shear Flows over Compliant and Vibrating Surfaces Vol. 6. Doklady. Chemical technology, 1988, 301-3,pp. 79–80.

11 11. Umarov, A., Kamolova, D., Kurbonov, M., Electron-paramagnetic resonance and infrared spectroscopic research of the structure of a southfield Polyvinylidene difluoride near the percolation threshold, E3S Web of Conferences, 2021, 264, 05009,

12 12. Yoqubov, B. B., Ibadullaev, A., Yoqubova, D. Q., Teshabaeva, E. U. Prospects and development of research of composite elastomer materials, J. Sib. Fed. Univ. Chem., 2021, 14(4), 464–476. DOI: 10.17516/1998-2836-0255

13 13. Margrupov, M.A., Umarov, A.V., Saidkhodzhaeva, K.Sh., Kasimov, G.A., Study of the density of filler surface layer modified by polyacrylonitrile heat treated, Plasticheskie Massy: Sintez Svojstva Pererabotka Primenenie, 1995, (2), р. 26–27.

14 14. Ibadullaev, A., Yusupbekov, A.Kh., Gorbunov, V.A., Abdurashidov, T.R. Reactivity of a secondary carbonaceous raw material with respect to carbon dioxide. Journal of applied chemistry of the USSR, 1986, 59(11 pt 2), pp. 2387–2389

15 15. Negmatov, N.S., Ziyamukhamedova, U.A., Kuluev, A.R. Antifriction materials and water-soluble compounds on basis of polymers for reducing the mechanical damage of cotton fibers. Plasticheskie Massy: Sintez Svojstva Pererabotka Primenenie, 2002, (1), стр. 42–45.

16 16. Ziyamukhamedova, U., Djumabaev, D., Shaymardanov, B. Mechanochemical modification method used in the development of new composite materials based on epoxy binder and natural minerals. Turkish Journal of Chemistry,2013, 37(1), стр. 51–56

17 17. ГОСТ 13170-80. Наименование: Руды и концентраты цветных металлов. Метод определения влаги

18 18. ГОСТ ISO 5725-2-2002. «Точность (правильность и прецизионность) методов и результатов измерений»

19 19. GOST 17022-81. Graphite. Types, marks and general technical requirements.

20 20. GOST 16337-77. High-pressure polyethylene. Specifications.

В ожидании

№	Имя автора	Должность	Наименование организации
1	Ziyamukhamedov ..	- independent applicant	Tashkent Scientific Research Institute of Chemical Texnology Tashkent
2	Tadjikhodjaev ..	– independent scientific	Center for Introduction and Development of Information and Communication Technologies, Tashkent

№	Название ссылки
1	1. Denis A. Gulin, Kseniya E. Karpova, Anton S. Glazkov. On application of pipes from polymer materials for field pipelines. Petroleum engineering. 2020, т. 18, № 6. DOI: 10.17122/ngdelo-2020-6-107-115.
2	2. Козодоев J.B., Якубовская C.B., Красников М.А., Перов В.К., Красовская Н.И. Экспериментальные исследования многослойных армированных полиэтиленовых труб // Газовая промышленность, 2002, №11.
3	3. Пепеляев B.C., Тараканов А.И. Полиэтиленовые трубы, армированные синтетическими нитями для нефтепромысловых трубопроводов// Интервал. Передовые нефтегазовые технологии, №9, 2006, с. 33-37.
4	4. Пепеляев B.C., Тараканов А.И. Полиэтиленовые армированные трубы для газопроводов с рабочим давлением свыше 1,2 Мпа // Полимергаз, № 4, 2006, с. 14-18.
5	5. Пепеляев B.C., Тараканов А.И. Выбор методики испытаний промысловых трубопроводов из полиэтиленовых армированных синтетическими нитями труб // Оборудование и технологии для нефтегазового комплекса, № 3, 2007, с 78-80.
6	6. Miradullaeva, G., Rakhmatov, E., Bozorov, O., Ziyamukhamedova, U., Shodiev, B. Mathematical Modeling of Rheological Properties During Structure Formation of Heterocomposite Potting Materials and Coatings and Their Application. Lecture Notes in Civil Engineeringthis link is disabled, 2021, 150 LNCE, стр. 346–355
7	7. Ziyamukhamedova, U., Rakhmatov, E., Nafasov, J. Optimization of the composition and properties of heterocomposite materials for coatings obtained by the activation-heliotechnological method. Journal of Physics: Conference Seriesthis link is disabled, 2021, 1889(2), 022056
8	8. Ziyamukhamedova, U., Djumabaev, A., Urinov, B., Almatayev, T. Features of structural adaptability of polymer composite coatings. E3S Web of Conferences, 2021, 264, 05011
9	9. Ibadullaev A., Negmatova D., Teshabaeva E. Radiation resistanct of filled elastomer compositions. IOP Cjnf. Series: Earth and Environmental Science 808 (2021) 012043
10	10. Yusupbekov, A.Kh., Ibadullaev, A., Abdurashidov, T.R., Akhmedov, K.S. 1988 International Symposium on Flow-Induced Vibration and Noise.Acoustic Phenomena and Interaction in Shear Flows over Compliant and Vibrating Surfaces Vol. 6. Doklady. Chemical technology, 1988, 301-3,pp. 79–80.
11	11. Umarov, A., Kamolova, D., Kurbonov, M., Electron-paramagnetic resonance and infrared spectroscopic research of the structure of a southfield Polyvinylidene difluoride near the percolation threshold, E3S Web of Conferences, 2021, 264, 05009,
12	12. Yoqubov, B. B., Ibadullaev, A., Yoqubova, D. Q., Teshabaeva, E. U. Prospects and development of research of composite elastomer materials, J. Sib. Fed. Univ. Chem., 2021, 14(4), 464–476. DOI: 10.17516/1998-2836-0255
13	13. Margrupov, M.A., Umarov, A.V., Saidkhodzhaeva, K.Sh., Kasimov, G.A., Study of the density of filler surface layer modified by polyacrylonitrile heat treated, Plasticheskie Massy: Sintez Svojstva Pererabotka Primenenie, 1995, (2), р. 26–27.
14	14. Ibadullaev, A., Yusupbekov, A.Kh., Gorbunov, V.A., Abdurashidov, T.R. Reactivity of a secondary carbonaceous raw material with respect to carbon dioxide. Journal of applied chemistry of the USSR, 1986, 59(11 pt 2), pp. 2387–2389
15	15. Negmatov, N.S., Ziyamukhamedova, U.A., Kuluev, A.R. Antifriction materials and water-soluble compounds on basis of polymers for reducing the mechanical damage of cotton fibers. Plasticheskie Massy: Sintez Svojstva Pererabotka Primenenie, 2002, (1), стр. 42–45.
16	16. Ziyamukhamedova, U., Djumabaev, D., Shaymardanov, B. Mechanochemical modification method used in the development of new composite materials based on epoxy binder and natural minerals. Turkish Journal of Chemistry,2013, 37(1), стр. 51–56
17	17. ГОСТ 13170-80. Наименование: Руды и концентраты цветных металлов. Метод определения влаги
18	18. ГОСТ ISO 5725-2-2002. «Точность (правильность и прецизионность) методов и результатов измерений»
19	19. GOST 17022-81. Graphite. Types, marks and general technical requirements.
20	20. GOST 16337-77. High-pressure polyethylene. Specifications.