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The effect of small polyamide additives modified with polyvinylpyrrolidone and montmorillonite on polypropylene technological properties and heat resistance has been researched in the work. It has been determined that the melt flow index of the obtained composites increases by more than 2 times in comparing with pure PP. It has been shown that adding a small amount of polyamide modified by montmorillonite-polyvinylprolidone mixture to polypropylene significantly increases heat resistance of the material. The displacement of the beginning of thermal-oxidation destruction and burning samples into the range of higher temperatures on 114-123oC, dependently on the modified polyamide content has been observed.
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Rocznik
Tom
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83--88
Opis fizyczny
Bibliogr. 20 poz., fig., tab.
Twórcy
autor
- Lviv Polytechnic National University, Department of Chemical Technology and Plastics Processing, Bandera 12 St., 79013 Lviv, Ukraine
autor
- Lviv Polytechnic National University, Department of Chemical Technology and Plastics Processing, Bandera 12 St., 79013 Lviv, Ukraine
autor
- Lviv Polytechnic National University, Department of Chemical Technology and Plastics Processing, Bandera 12 St., 79013 Lviv, Ukraine
autor
- Lviv Polytechnic National University, Department of Chemical Technology and Plastics Processing, Bandera 12 St., 79013 Lviv, Ukraine
autor
- Lviv Polytechnic National University, Department of Chemical Technology and Plastics Processing, Bandera 12 St., 79013 Lviv, Ukraine
autor
- Lublin University of Technology, Faculty of Mechanical Engineering, Department of Polymer Processing, Nadbystrzycka 36 St. , 20-618 Lublin, Poland
Bibliografia
- 1. Beatrice C. A. G., Santos C. R. dos, Branciforti M. C., Bretas R. E. S. Nanocomposites of polyamide 6/ residual monomer with organic-modified montmorillonite and their nanofibers produced by electrospinning. Materials Research, 2012, 15 (4), 611–621.
- 2. Chang D., Li-hui L., Jing X., Kai-zhi S. Effect of Low Frequency Vibration on Property of PP/MMT Blends. Polymer Materials Science & Engineering, 2006, 5, 178–181.
- 3. Dulebova L., Garbacz T., Krasinskyi V., Duleba B. The Influence of Modifying HDPE on Properties of the Surface. Materials Science Forum, 2015, 818, 101–104.
- 4. Dulebová L., Greškovič F., Sikora J.W., Krasinskyi V. Analysis of the Mechanical Properties Change of PA6/MMT Nanocomposite System after Ageing. Key Engineering Materials, 2017, 756, 52–59.
- 5. Gnatowski A., Suberlak O., Postawa P. Functional materials based on PA6/PVP blends. Journal of Achievements in Materials and Manufacturing Engineering, 2006, 18 (1-2), 91–94.
- 6. Guowang H., Xiangfang P. Research Progress of Preparation and Properties of Organic Montmorillonite Filled Polypropylene/PA6 Nanocomposites. Plastics Science and Technology, 2008, 11, 94–97.
- 7. Huang J. C., Zhu Z. K., Ma X. D., Qian X. F., Yin J. Preparation and properties of montmorillonite/or-ganosoluble polyimide hybrid materials prepared by a one -step approach. Journal of Materials Science, 2001, 36, 871–877.
- 8. Ji-Sheng M., Shi-Min Z., Zong-Neng Q., You- Liang H., Shu-Fan Z. Microstructure and Morphology of PolypropyIene/Clay Nanocomposites Synthesized via Intercalative Polymerization. Chemical Journal of Chinese Universities, 2002, 4, 734–738.
- 9. Krasinskyi V., Kochubei V., Klym Y., Suberlyak O. Thermogravimetric research into composites based on the mixtures of polypropylene and modified polyamide. EasternEuropean Journal of Enterprise Technologies, 2017, 4 (12), 44–50.
- 10. Krasinskyi V., Suberlyak O., Antoniuk V., Jachowicz T. Rheological Properties of Compositions Based on Modified Polyvinyl Alcohol. Advances in Science and Technology Research Journal, 2017, 11(3), 304–309.
- 11. Krasinskyi V., Suberlyak O., Dulebová L., Antoniuk V. Nanocomposites on the basis of thermoplastics and montmorillonite modified by polyvinylpyrrolidone. Key Engineering Materials, 2017, 756, 3–10.
- 12. Liang M. R., Jiao W. Y., Hui H., Yi Y. D. Research on Mechanical Properties and Crystallization Per-formance of PP/PA6/OMMT Composite. Plastics Science and Technology, 2010, 3, 65–69.
- 13. Mucha M. Crystallization of isotactic polypropylene containing carbon black as a filler. Polymer, 2000, 41 (11), 4137–4142.
- 14. Omurlu C., Pham H., Nguyen Q. P. Interaction of surface-modified silica nanoparticles with clay minerals. Applied Nanoscience, 2016, 6 (8), 1167–1173.
- 15. Suberlyak О. V., Krasins’kyi V. V., Moravs’kyi V. V., Gerlach H., Jachowicz T. Influence of Aluminosilicate Filler on the Physicomechanical Properties of Polypropylene-Polycaproamide Composites. Materials Science, 2014, 50 (2), 296–302.
- 16. Tesarikova A., Merinska D., Kalous J., Svoboda P. Ethylene-Octene Copolymers/Organoclay Nano-composites: Preparation and Properties. Journal of Nanomaterials, 2016, 1–13.
- 17. Volkova T. S., Isaev A. Yu., Petrova A. P. Osobennosti vliyaniya nanosilikatov na izmenenie svoystv razlichnyh polimernyh i kleyashchih sistem. Klei. Germetiki. Tekhnologyi, 2013, 1, 16–20.
- 18. Youssef A. M., Malhat F. M., Abdel Hakim A. A., Dekany I. Synthesis and utilization of poly (meth-ylmethacrylate) nanocomposites based on modified montmorillonite. Arabian Journal of Chemistry, 2017, 10 (5), 631–642.
- 19. Zhou L., Zhao Y., Yang M., Wang D., Xu D. Investigation on Photooxidative Degradation of Poly-propylene/Organomontmorillonite Nanocomposites. Spectroscopy and Spectral Analysis, 2010, 30 (1), 109–113.
- 20. Zymankowska-Kumon S. Assessment Criteria of Bentonite Binding Properties. Archives of Foundry Engineering, 2012, 12 (3), 139–142.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-012f2aa0-912b-4ea9-8cde-bf728b7eed47