On the relationship between optical and structural properties of polymer films modified by carbon micro and nanopartciles

Kovalevskaya, T.; Ihnatouski, M.; Sviridenok, A.; Zhdanok, S.; Krauklis, A.; Voina, V.; Stepuro, A.

Artykuł - szczegóły

Tytuł artykułu

On the relationship between optical and structural properties of polymer films modified by carbon micro and nanopartciles

Autorzy

Kovalevskaya T. , Ihnatouski M. , Sviridenok A. , Zhdanok S. , Krauklis A. , Voina V. , Stepuro A.

Treść / Zawartość

Pełne teksty:

httpwww_actawm_pb_edu_plvol2no4kovalevskayaihnatouskisviridenokzhadanokkrauklisvoinastepuro.pdf

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Języki publikacji

Abstrakty

The studies were concentrated on investigations of optical and structural characteristics of polymeric films filled by carbon micro and nanoparticles. Light transmission in the region of visible spectra of the films based on gelatin and polyvinyl alcohol was found to be almost independent of the wavelength. Carbon particles appeared to have no intrinsic absorption bands within the UV region. In the case of aggregation, nanotubes start to form clusters with an optical fractal structure, while the films display spatial fluctuations in transparency accompanied by deviations from the Bourguer-Lambert-Beer law. In contrast to nanoparticles, microparticles reduce the roentgen level of crystallinity of the films.

Słowa kluczowe

composite materials polymers composite films

kompozyt polimery folia

Wydawca

Oficyna Wydawnicza Politechniki Białostockiej

Czasopismo

Acta Mechanica et Automatica

Rocznik

2008

Tom

Vol. 2, no. 4

Strony

51--56

Opis fizyczny

Bibliogr. 13 poz., il., tab., wykr.

Twórcy

autor

Kovalevskaya T.

autor

Ihnatouski M.

autor

Sviridenok A.

autor

Zhdanok S.

autor

Krauklis A.

autor

Voina V.

autor

Stepuro A.

Research Center of Resource Saving Problems of National Academy of Sciences of Belarus, Tizenhauza sq., 7, Grodno, 230023 Republic of Belarus, Tel.: +375-152-720100, +375-152-738185, mii_by@mail.ru

Bibliografia

1. Ajayan P. M., Schalder L. S., Braun P. V. (2003), Nanocomposite science and technology, WILEY-VCH, Weinheim.
2. Born M., Volf E. (1970), Fundamentals of optics, Nauka, USSR.
3. Cang R. (1980), Physical chemistry with application to biological systems, Mir, USSR
4. Du F., Fischer I. E., Winey K. J. (2006), Interfacial in situ polymerization of single wall carbon nanotube/nylon 6,6 nanocomposites, Polymer, Vol. 47, 2381 – 2388
5. Harris P. (2003), Carbon nanotubes and affine structures. Nanomaterials of the 21stcentury, Tekhnosfera, Russia.
6. Kovalevskaya T. I., Ihnatouski M. I., Sviridenok A. I. (2006), Investigation of optical properties of polyamide films filled by carbon nanotubes, Materials, Technologies, Tools, Vol. 11, No. 2, 44 – 48.
7. Kovalevskaya T. I., Ihnatouski M. I., Sviridenok A. I., Voina V. V. (2007), Peculiarities of interactions between soft X-ray radiation and polyamide films filled by carbon nanotubes, Materials, Technologies, Tools, Vol. 12, No. 1, 45–50.
8. Markel V. A., Muratov L. S., Stockman M. I., George T. F. (1991), Theory and numerical simulation of optical properties of fractal clusters, Physical Review, Vol. 43, No. 10, 8183 – 8187.
9. Martynov M. A., Vylegzhanina K. A. (1972), Radiography of polymers, Khimiya, USSR.
10. Pool-jr, Owens F. (2006), Nanotechnologies, Tekhnosfera, Russia.
11. Smirnov B. M. (1986), Fractal clusters, Successes in Physical Sciences, Vol. 149, Issue 2, 178 – 191
12. Takasaki T., Kuwana Y (2000), Polymer Science, Polymer Chemistry, Vol. 38, Issue S1, 4832 – 4838.
13. Wonderlikh B. (1976), Physics of Macromolecules, Mir, Russia.

Typ dokumentu

Bibliografia

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bwmeta1.element.baztech-article-BPB2-0033-0032