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Ir-spectal analysis of organicplastics based on polyeteraphthorethylene
Назва | Ir-spectal analysis of organicplastics based on polyeteraphthorethylene |
Назва англійською | Ir-spectal analysis of organicplastics based on polyeteraphthorethylene |
Автори | Aleksandr Burya; Serhii Kalinichenko; Svetlana Suchilina-Socolenko |
Принадлежність | Dniprovsk State Technical University, Kam’yanske, Ukraine |
Бібліографічний опис | Ir-spectal analysis of organicplastics based on polyeteraphthorethylene / Aleksandr Burya; Serhii Kalinichenko; Svetlana Suchilina-Socolenko // Scientific Journal of TNTU. — Tern. : TNTU, 2019. — Vol 94. — No 2. — P. 64–74. — (Mechanics and materials sciense). |
Bibliographic description: | Burya A.; Kalinichenko S.; Suchilina-Socolenko S. (2019) Ir-spectal analysis of organicplastics based on polyeteraphthorethylene. Scientific Journal of TNTU (Tern.), vol 94, no 2, pp. 64–74. |
DOI: | https://doi.org/10.33108/visnyk_tntu2019.02.064 |
УДК |
678.073.001.8 |
Ключові слова |
organoplastics, polytetrafluoroethylene, fiber, Tanlon, IR-spectral analysis. |
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Today, composite materials based on polymer, reinforced by organic fibers in terms of production exceed steel, aluminum, cast iron and plastics due to their unique properties: high chemical resistance, low density (they are easier,than carbon fiber and fiberglass), ability to long-term accumulation of damage in the volume of the detail without formation of critical cracks. Great application find organoplastics based on the heat-resistant thermoplastic binders, one of the promising representatives of which are fluoropolymers, including polytetrafluoroethylene (fluoroplast-4), which is well-known for its exceptional resistance to the aggressive environments (alkalis, acids, petroleum products, organic and inorganic solvents), wide temperature range of the operation (4–533 K), low coefficient of friction and natural lubricity. Taking into account the foregoing, the development of new organoplastics, that are able to work in difficult conditions (at high loads and temperatures, under the effect of aggressive environments), including based on fluoropolymers, with improved operational characteristics is an urgent task for modern material science. In this article are given infrared spectra of organoplastics based on polytetrafluoroethylene, reinforced by polysulfonamide fiber brand Tanlon T700. It has been established, that with the addition of 5–20 wt.% exist interaction of chemical and physical nature between the components of the developed organoplastics. From the obtained data, it should be noted, that the greatest chemical interaction, both from the side of polytetrafluoroethylene and from the Tanlon fiber, is observed for the composite material, containing 20 wt.% of filler, while the given organoplastic is chemically unstable, because it contains new multiple bonds (cumulative , double, triple), as well as in it arise new Н-bonds of interpolymeric character. |
ISSN: | 2522-4433 |
Перелік літератури |
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References: |
Today, composite materials based on polymer, reinforced by organic fibers in terms of production exceed steel, aluminum, cast iron and plastics due to their unique properties: high chemical resistance, low density (they are easier,than carbon fiber and fiberglass), ability to long-term accumulation of damage in the volume of the detail without formation of critical cracks. Great application find organoplastics based on the heat-resistant thermoplastic binders, one of the promising representatives of which are fluoropolymers, including polytetrafluoroethylene (fluoroplast-4), which is well-known for its exceptional resistance to the aggressive environments (alkalis, acids, petroleum products, organic and inorganic solvents), wide temperature range of the operation (4–533 K), low coefficient of friction and natural lubricity. Taking into account the foregoing, the development of new organoplastics, that are able to work in difficult conditions (at high loads and temperatures, under the effect of aggressive environments), including based on fluoropolymers, with improved operational characteristics is an urgent task for modern material science. In this article are given infrared spectra of organoplastics based on polytetrafluoroethylene, reinforced by polysulfonamide fiber brand Tanlon T700. It has been established, that with the addition of 5–20 wt.% exist interaction of chemical and physical nature between the components of the developed organoplastics. From the obtained data, it should be noted, that the greatest chemical interaction, both from the side of polytetrafluoroethylene and from the Tanlon fiber, is observed for the composite material, containing 20 wt.% of filler, while the given organoplastic is chemically unstable, because it contains new multiple bonds (cumulative , double, triple), as well as in it arise new Н-bonds of interpolymeric character. |
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