https://oldena.lpnu.ua/handle/ntb/49613
Title: | Rheological properties of melts and X-ray method of study of cross-linked polyethylene |
Authors: | Shixaliyev, Karam Abbasov, Ibrahim Sadig, Khaver |
Affiliation: | Azerbaijan State Oil and Industry University |
Bibliographic description (Ukraine): | Shixaliyev K. Rheological properties of melts and X-ray method of study of cross-linked polyethylene / Karam Shixaliyev, Ibrahim Abbasov, Khaver Sadig // Ukrainian Journal of Mechanical Engineering and Materials Science. — Lviv : Lviv Politechnic Publishing House, 2019. — Vol 5. — No 1. — P. 1–12. |
Bibliographic description (International): | Shixaliyev K. Rheological properties of melts and X-ray method of study of cross-linked polyethylene / Karam Shixaliyev, Ibrahim Abbasov, Khaver Sadig // Ukrainian Journal of Mechanical Engineering and Materials Science. — Lviv : Lviv Politechnic Publishing House, 2019. — Vol 5. — No 1. — P. 1–12. |
Is part of: | Український журнал із машинобудування і матеріалознавства, 1 (5), 2019 Ukrainian Journal of Mechanical Engineering and Materials Science, 1 (5), 2019 |
Journal/Collection: | Український журнал із машинобудування і матеріалознавства |
Issue: | 1 |
Volume: | 5 |
Issue Date: | 20-Mar-2019 |
Publisher: | Видавництво Львівської політехніки Lviv Politechnic Publishing House |
Place of the edition/event: | Львів Lviv |
Keywords: | chemical bonds polyethylene vinyl monomer IR spectroscopy methylene groups modification |
Number of pages: | 12 |
Page range: | 1-12 |
Start page: | 1 |
End page: | 12 |
Abstract: | In the paper, the X-ray study of cross-linked polyethylene with isopropenyl styrene or acrylonitrile was carried out. It is shown that cross-linking leads to a significant decrease in the area of the exothermic peak, an increase in the resistance of the structured system to thermal oxidation. These data confirm that the increase in resistance to thermal aging of polyethylene cross-linked with acrylonitrile or isopropenyl styrene fraction. |
URI: | https://ena.lpnu.ua/handle/ntb/49613 |
Copyright owner: | © Національний університет “Львівська політехніка”, 2019 © Shixaliyev K., Abbasov I., Sadig Kh., 2019 |
References (Ukraine): | 1. V. S. Anpilogova, V. S. Osipchik, T. P. Kravchenko, and Ts. B. Tsyritorov, “Svoystva nanokompozitov na osnove polietilena visokoy plotnosti” [“Properties of nanocomposites based on high density polyethylene”], Uspekhi v khimii i khimicheskoy tekhnologii [Advances in Chemistry and Chemical Technology], vol. 31, no. 11, pp. 20–22, 2017. [in Russian]. 2. A. E. Prismakova, A. B. Dyagileva, and A. I. Smirnova, “Reologichekiye svoystva sulfatnogo lignina, modifitsirovannogo zol-gel metodom” [“Rheological properties of sulphate lignin modified by sol-gel method”], Lesnoy zhurnal [Forestry journal], no. 3, pp. 137–148, 2018. [in Russian]. 3. N. M. Mukhin, and V. G. Burindin, Opredeleniye reologicheskikh i fiziko-mekhanicheskikh svoystv polimernikh materialov [Determination of rheological and physico-mechanical properties of polymer materials]. Ekaterinburg, Russia: UGLTU, 2018. [in Russian]. 4. N. P. Petrova, N. A. Tarasov, N. F. Ushmarin, M. S. Reznikov, and N. I. Koltsov, “Issledovaniye vliyaniya kombinatsii antipirenov na kinetiku goreniya rezini na osnove butadien-nitrilnogo kauchuka” [“Investigation of influence of fire retardants combinations on combustion kinetics of rubber on base of butadiene-nitrile rubber”], Izvestiya Vysshikh Uchebnykh Zavedenii [News of Higher Education Institutions], vol. 57, no 4, pp. 52–55, 2014. [in Russian]. 5. S. I. Sandalov, etc., “Razrabotka termoagressivostoykoy rezini na osnove butadiene-nitrilnikh kauchukov” [“Development of thermo-aggressive rubber based on nitrile-butadiene rubbers”], Vestnik Kazanskogo tekhnologicheskogo universiteta [Bulletin of Kazan Technological University], vol. 17, no. 3, pp. 108–110, 2014. [in Russian]. 6. V. D. Voronchikhin, E. I. Lesik, K. A. Dubkov, D. P. Ivanov, and S. V. Semikolenov, “Issledovaniye svoystv elastomernikh kompozitsiy na osnove karboksidirovannikh buadien-nitrilnikh kauchukov” [“The study of the properties of elastomeric compositions based on carboxydiene buadiene nitrile rubbers”], in Proc. 11th Int. Scientific and Practical Conf. “Rubber industry. Raw material. Materials. Technology”, Moscow, 2014, pp. 56–58. [in Russian]. 7. K. Karadeniz, and N. Ergüller, “Investigation of plasticizer effect of hazelnut oil and its epixidized derivative on chloroprene and nitrile rubbers”, Kautsch. Gummi, Kunststoffe, no. 10, pp. 49–54, 2012. 8. S. A. Mansour, M. A. El-Salam, A. H. Moharram, M. Hussein, and Faisal A. M. Al-Agel “The order addition effect of carbon black/graphite on the electrical properties of rubber composites”, Journal of Applied Polymer Science, vol. 126, no. 2, pp. 593–600, 2012. 9. M. Nofar, A. Maani, H. Sojoudi, M. C. Heuzey, and P. J. Carreau, “Interfacial and rheological properties of PLA / PBAT and PLA / PBSA blends and their morphological stability under shear flow”, Journal of Rheology, vol. 59, no. 2, pp. 317–333, 2015. 10. M. Trifkovic, A. Hedegaard, K. Huston, M. Sheikhzadeh, and C. W. Macosko, “Porous films via PE/PEO cocontinuous blends”, Macromolecules, vol. 45, no. 15, pp. 6036–6044, 2012. 11. E. J. Dil, P. J. Carreau, and B. D. Favis, “Morphology, miscibility and continuity development in poly(lactic acid)/poly(butylene adipate-co-terephthalate) blends”, Polymer, vol. 68, pp. 202–212, 2015. 12. K. S. Shikhaliyev, “Teoriya i praktika proizvodstva kompozisionnikh materialov na osnove polimernikh smesey” [“Theory and practice of the production of composite materials based on polymer blends”], International Center for Scientific Cooperation "Science and education", part 1, pp. 12-18, 2017. [in Russian]. 13. K. S. Shikhaliyev, “Compositions based on elastomers”, European science review, no. 7-8, pp. 147–150, 2017. 14. I. G. Klimov, E. O.Koval, A. I. Agafonova, Yu. N. Kondratiev, and E. A. Mayer, “Sravneniye vliyaniya ispolzuyemogo proizvodstvennogo protsessa na strukturu i svoystva polietilena nizkoy plotnosti” [“Comparing the influence of the manufacturing process employed on the structure and properties of low-density polyethylene”], International Polymer Science and Technology, vol. 38, no. 11, pp. 21–25, November, 2011. [in Russian]. 15. A. D. Kalashnikov, N. K. Balabaev and E. F. Oleynik, “Strukturnye vozmushcheniya ortorombicheskogo polietilena s СН3 razvetvleniyami v tsepyakh” [“Structural distortion of the orthorhombic crystal of polyethylene with СН3 branches in chains”], Vysokomolekulyarnye soedineniya [High Molecular Weight Compounds], ser. А, vol. 47, no. 10, pp. 1767–1781, 2005. [in Russian]. 16. Ye. Koval, Ye. Skvortsevitch, and E. Mayer, “VLDPE synthesis by radical ethylene polymerization in tubular reactors – Negative factor or unrealized opportunities”, Journal of Materials Science and Chemical Engineering, no. 1, pp. 11–16, 2013. 17. C. James, and A.Randall, “Review of high resolution liquid 13 carbon nuclear magnetic resonance characterizations of ethylene based polymers”, Jms–Rev. Macromol. Chem. Phys., vol. 29, no. 2–3, pp. 297–303, 1989. 18. Takao Usami, and Shigeru Takayama, “Fine-branching structure in high-pressure, low-density polyethylenes by 50.10-mHz 13C NMR analysis”, Macromolecules, vol. 17, no. 9, pp. 1756–1761, 1984. 19. A. A. Bunyatzade, A. M. Abbasov, “Visokonapolnenniye kompozisionniye materiali na osnove razlichnikh sortov polietilena” [“Highly filled composite materials on the basis of various grades of polyethylene”], “Tsniit Enertekhim”, Sbornik nauchnikh trudov, Moscow, pp. 8–17, 1991. [in Russian]. 20. A. M. Abbasov, “Stabilizatsiya PEVP, ispolzuemogo v kachestve visoko-i sverkhvisokochastotnikh dielektrikov” [“Stabilization of HDPE used as a high and superhigh-frequency insulator of the island”], Izvestiya NAN ARGRNS, no. 7, pp. 28–35, 2003. [in Ruissian]. 21. P. A. Du Bois, S. Kolling, and W. Fassnacht, “Modelling of safety for crash simulation”, Computational Materials Science, vol. 28, pp. 675–683, 2003. 22. Q. C. Pham, F. Vincent, P. Clarysse, P. Croisille, and I. E. Magnin, “A FEM-based deformable model for the 3D segmentation and tracing of the heart in cardiac MRI”, in Proc. 2 nd International Symposium on Image and Signal Processing and Analysis (ISPA 2001), Pula, Croatia, 2001, pp. 250–254. 23. E. Bechet, H. Minnebo, N. Moes, and B. Burgardt, “Improved implementation and robustness study of the X-FEM for stress analysis around cracks”, International Journal for Numerical Methods in Engineering, vol. 64, no. 8, pp. 1033–1056, 2005. 24. K. S. Shikhaliyev, “Termodinamika i vzaimnoye raspredeleniye makromolekul v sistemakh khlorkhlorsoderzhashie polimeri” [“Thermodynamics and mutual distribution macromolecules in chlor systems chlorine containing polymers”], in Proc. International Scientific and Practical Conference “WORLD SCIENCE”, Dubai, UAE, vol. 5, no. 4 (20), April, 2017, pp. 37–43. [in Russian]. 25. K. S. Shikhaliyev, and I. G. Movlayev, “Issledovaniye sovmestimosti polimerov, khimicheskikh i drugikh osobennostey ikh smesey”, [“The study of the compatibility of polymers, chemical and other features of their mixtures”], in Collection of articles of winners of the 10th International Scientific Practical Conference, Russia, Penza, 2017, pp. 31–35. [in Russian]. 26. K. S. Shixaliyev, I. H. Movlayev, and A. I. Alibeyli, “Receding body resins on the basis of ethylene rubbers”, European Science Review, no. 5–6, pp. 97–102, 2017. 27. K. S. Shikhaliyev, “Kompozitsii i izdeliya na osnove polivinilkhlorida” [“Compositions and products based on polyvinyl chloride”], in Collection of articles of the 10th International Scientific Practical Conference, Penza, Russia, July 25, 2017, pp. 19–25. [in Russian]. 28. K. S. Shikhaliyev, and F. A. Amirov, Issledovaniye protsessa polucheniya pokritiy razlichnogo naznacheniya na osnove modifitsirovannogo polimernymi otkhodami neftyanogo bituma [The study of the process of obtaining coatings for various purposes based on petroleum bitumen modified by polymeric waste], in Proc. International Scientific and Practical Conference “WORLD SCIENCE”, Dubai, UAE, vol. 3, no. 8 (24), August, 2017, pp. 10–12. [in Russian]. |
References (International): | 1. V. S. Anpilogova, V. S. Osipchik, T. P. Kravchenko, and Ts. B. Tsyritorov, "Svoystva nanokompozitov na osnove polietilena visokoy plotnosti" ["Properties of nanocomposites based on high density polyethylene"], Uspekhi v khimii i khimicheskoy tekhnologii [Advances in Chemistry and Chemical Technology], vol. 31, no. 11, pp. 20–22, 2017. [in Russian]. 2. A. E. Prismakova, A. B. Dyagileva, and A. I. Smirnova, "Reologichekiye svoystva sulfatnogo lignina, modifitsirovannogo zol-gel metodom" ["Rheological properties of sulphate lignin modified by sol-gel method"], Lesnoy zhurnal [Forestry journal], no. 3, pp. 137–148, 2018. [in Russian]. 3. N. M. Mukhin, and V. G. Burindin, Opredeleniye reologicheskikh i fiziko-mekhanicheskikh svoystv polimernikh materialov [Determination of rheological and physico-mechanical properties of polymer materials]. Ekaterinburg, Russia: UGLTU, 2018. [in Russian]. 4. N. P. Petrova, N. A. Tarasov, N. F. Ushmarin, M. S. Reznikov, and N. I. Koltsov, "Issledovaniye vliyaniya kombinatsii antipirenov na kinetiku goreniya rezini na osnove butadien-nitrilnogo kauchuka" ["Investigation of influence of fire retardants combinations on combustion kinetics of rubber on base of butadiene-nitrile rubber"], Izvestiya Vysshikh Uchebnykh Zavedenii [News of Higher Education Institutions], vol. 57, no 4, pp. 52–55, 2014. [in Russian]. 5. S. I. Sandalov, etc., "Razrabotka termoagressivostoykoy rezini na osnove butadiene-nitrilnikh kauchukov" ["Development of thermo-aggressive rubber based on nitrile-butadiene rubbers"], Vestnik Kazanskogo tekhnologicheskogo universiteta [Bulletin of Kazan Technological University], vol. 17, no. 3, pp. 108–110, 2014. [in Russian]. 6. V. D. Voronchikhin, E. I. Lesik, K. A. Dubkov, D. P. Ivanov, and S. V. Semikolenov, "Issledovaniye svoystv elastomernikh kompozitsiy na osnove karboksidirovannikh buadien-nitrilnikh kauchukov" ["The study of the properties of elastomeric compositions based on carboxydiene buadiene nitrile rubbers"], in Proc. 11th Int. Scientific and Practical Conf. "Rubber industry. Raw material. Materials. Technology", Moscow, 2014, pp. 56–58. [in Russian]. 7. K. Karadeniz, and N. Ergüller, "Investigation of plasticizer effect of hazelnut oil and its epixidized derivative on chloroprene and nitrile rubbers", Kautsch. Gummi, Kunststoffe, no. 10, pp. 49–54, 2012. 8. S. A. Mansour, M. A. El-Salam, A. H. Moharram, M. Hussein, and Faisal A. M. Al-Agel "The order addition effect of carbon black/graphite on the electrical properties of rubber composites", Journal of Applied Polymer Science, vol. 126, no. 2, pp. 593–600, 2012. 9. M. Nofar, A. Maani, H. Sojoudi, M. C. Heuzey, and P. J. Carreau, "Interfacial and rheological properties of PLA, PBAT and PLA, PBSA blends and their morphological stability under shear flow", Journal of Rheology, vol. 59, no. 2, pp. 317–333, 2015. 10. M. Trifkovic, A. Hedegaard, K. Huston, M. Sheikhzadeh, and C. W. Macosko, "Porous films via PE/PEO cocontinuous blends", Macromolecules, vol. 45, no. 15, pp. 6036–6044, 2012. 11. E. J. Dil, P. J. Carreau, and B. D. Favis, "Morphology, miscibility and continuity development in poly(lactic acid)/poly(butylene adipate-co-terephthalate) blends", Polymer, vol. 68, pp. 202–212, 2015. 12. K. S. Shikhaliyev, "Teoriya i praktika proizvodstva kompozisionnikh materialov na osnove polimernikh smesey" ["Theory and practice of the production of composite materials based on polymer blends"], International Center for Scientific Cooperation "Science and education", part 1, pp. 12-18, 2017. [in Russian]. 13. K. S. Shikhaliyev, "Compositions based on elastomers", European science review, no. 7-8, pp. 147–150, 2017. 14. I. G. Klimov, E. O.Koval, A. I. Agafonova, Yu. N. Kondratiev, and E. A. Mayer, "Sravneniye vliyaniya ispolzuyemogo proizvodstvennogo protsessa na strukturu i svoystva polietilena nizkoy plotnosti" ["Comparing the influence of the manufacturing process employed on the structure and properties of low-density polyethylene"], International Polymer Science and Technology, vol. 38, no. 11, pp. 21–25, November, 2011. [in Russian]. 15. A. D. Kalashnikov, N. K. Balabaev and E. F. Oleynik, "Strukturnye vozmushcheniya ortorombicheskogo polietilena s SN3 razvetvleniyami v tsepyakh" ["Structural distortion of the orthorhombic crystal of polyethylene with SN3 branches in chains"], Vysokomolekulyarnye soedineniya [High Molecular Weight Compounds], ser. A, vol. 47, no. 10, pp. 1767–1781, 2005. [in Russian]. 16. Ye. Koval, Ye. Skvortsevitch, and E. Mayer, "VLDPE synthesis by radical ethylene polymerization in tubular reactors – Negative factor or unrealized opportunities", Journal of Materials Science and Chemical Engineering, no. 1, pp. 11–16, 2013. 17. C. James, and A.Randall, "Review of high resolution liquid 13 carbon nuclear magnetic resonance characterizations of ethylene based polymers", Jms–Rev. Macromol. Chem. Phys., vol. 29, no. 2–3, pp. 297–303, 1989. 18. Takao Usami, and Shigeru Takayama, "Fine-branching structure in high-pressure, low-density polyethylenes by 50.10-mHz 13C NMR analysis", Macromolecules, vol. 17, no. 9, pp. 1756–1761, 1984. 19. A. A. Bunyatzade, A. M. Abbasov, "Visokonapolnenniye kompozisionniye materiali na osnove razlichnikh sortov polietilena" ["Highly filled composite materials on the basis of various grades of polyethylene"], "Tsniit Enertekhim", Sbornik nauchnikh trudov, Moscow, pp. 8–17, 1991. [in Russian]. 20. A. M. Abbasov, "Stabilizatsiya PEVP, ispolzuemogo v kachestve visoko-i sverkhvisokochastotnikh dielektrikov" ["Stabilization of HDPE used as a high and superhigh-frequency insulator of the island"], Izvestiya NAN ARGRNS, no. 7, pp. 28–35, 2003. [in Ruissian]. 21. P. A. Du Bois, S. Kolling, and W. Fassnacht, "Modelling of safety for crash simulation", Computational Materials Science, vol. 28, pp. 675–683, 2003. 22. Q. C. Pham, F. Vincent, P. Clarysse, P. Croisille, and I. E. Magnin, "A FEM-based deformable model for the 3D segmentation and tracing of the heart in cardiac MRI", in Proc. 2 nd International Symposium on Image and Signal Processing and Analysis (ISPA 2001), Pula, Croatia, 2001, pp. 250–254. 23. E. Bechet, H. Minnebo, N. Moes, and B. Burgardt, "Improved implementation and robustness study of the X-FEM for stress analysis around cracks", International Journal for Numerical Methods in Engineering, vol. 64, no. 8, pp. 1033–1056, 2005. 24. K. S. Shikhaliyev, "Termodinamika i vzaimnoye raspredeleniye makromolekul v sistemakh khlorkhlorsoderzhashie polimeri" ["Thermodynamics and mutual distribution macromolecules in chlor systems chlorine containing polymers"], in Proc. International Scientific and Practical Conference "WORLD SCIENCE", Dubai, UAE, vol. 5, no. 4 (20), April, 2017, pp. 37–43. [in Russian]. 25. K. S. Shikhaliyev, and I. G. Movlayev, "Issledovaniye sovmestimosti polimerov, khimicheskikh i drugikh osobennostey ikh smesey", ["The study of the compatibility of polymers, chemical and other features of their mixtures"], in Collection of articles of winners of the 10th International Scientific Practical Conference, Russia, Penza, 2017, pp. 31–35. [in Russian]. 26. K. S. Shixaliyev, I. H. Movlayev, and A. I. Alibeyli, "Receding body resins on the basis of ethylene rubbers", European Science Review, no. 5–6, pp. 97–102, 2017. 27. K. S. Shikhaliyev, "Kompozitsii i izdeliya na osnove polivinilkhlorida" ["Compositions and products based on polyvinyl chloride"], in Collection of articles of the 10th International Scientific Practical Conference, Penza, Russia, July 25, 2017, pp. 19–25. [in Russian]. 28. K. S. Shikhaliyev, and F. A. Amirov, Issledovaniye protsessa polucheniya pokritiy razlichnogo naznacheniya na osnove modifitsirovannogo polimernymi otkhodami neftyanogo bituma [The study of the process of obtaining coatings for various purposes based on petroleum bitumen modified by polymeric waste], in Proc. International Scientific and Practical Conference "WORLD SCIENCE", Dubai, UAE, vol. 3, no. 8 (24), August, 2017, pp. 10–12. [in Russian]. |
Content type: | Article |
Appears in Collections: | Ukrainian Journal of Mechanical Engineering And Materials Science. – 2019. – Vol. 5, No. 1 |
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