Pages: 27 – 37
STRUCTURE AND PROPERTIES OF COMPOSITE MATERIAL BASED ON GYPSUM BINDER AND CARBON NANOTUBES
Authors: CHUMAK Anastasia Gennadievna, Post-graduate Student (3);
DEREVYANKO Viktor Nikolayevich, Ph.D. in Engineering (3);
PETRUNIN Sergey Yuryevich, Post-graduate Student (4);
POPOV Maksim Yuryevich, Post-graduate Student (4);
VAGANOV Viktor Yevgenyevich, Ph.D. in Engineering, Associate Professor of Nanotechnology and Theoretical Physics Department (4);
(3) – «Prydniprovs’ka State Academy of Civil Engineering and Architecture», Dnepropetrovsk, Ukraine;
(4) – Vladimir State University, Vladimir, Russian Federation.
Extended Abstract: The aim of this work is to carry out a number of studies in the area of nanomodification of gypsum binder matrix and to investigate the influence of multilayer carbon nanotubes on the structure, physical and mechanical properties of obtained composites.
The study of the gypsum binders structure formation mechanisms with the use of nanoadditives makes it possible to control the production processes of gypsum materials and articles with the given set of properties.
The main tasks of the binder nanomodification are: even distribution of carbon nanostructures over the whole volume of material and provision of stability for the nanodimensional modifier during production process of the construction composite.
Key words: nanomodification, structure formation, gypsum binders, carbon nanotubes
References:
1. Zhukov M.O. The study of the possibility of using modifier based on carbonic nanostructures in the technology of efficient building materials / M.O. Zhukov, Yu.N. Tolchkov, Z.A. Mikhaleva // Young Scientist. 2012. № 5. P. 16–20.
2. Maeva I.S. The structuring of anhydrite matrix by nanodispersed modifying additives / I.S. Maeva, G.I. Yakovlev, G.N. Pervushin et al. // Construction Materials. 2009. P. 4–5.
3. Iidzhima S. Observation of multilayer carbonic microtubules / S. Iidzhima // Nature. 1991. № 7. P. 56–58.
4. Oberlin A. High resolution electron microscope observations of graphitized carbon fibers / A. Oberlin, M.Endo, T. Koyama // Carbon. 1976. № 14. P. 133–135.
5. Gibson J.A.I. The first nanotubes / J.A.I. Gibson // Nature. 1992. № 5. P. 359–369.
6. Radushkevich L.V. About the structure of carbon formed by the thermal decomposition of carbon monoxide on iron contact / L.V. Radushkevich, V.M. Lukyanovich // ZhFKh. 1952. № 26. P. 88–86.
7. Kuzmina V.Р. Modification of composite materials on the basis of binder materials // Nanotechnologies in Construction: A Scientific Internet Journal. Moscow. «NanoStroitelstvo». 2011. № 1. pp. 70–78. URL http://www.nanobuild.ru (date of access: 11.01.2011).