ECONOMICS AND MANAGEMENT OF PRODUCTION |
Название |
Technical and economic substantiation of production
of FeCo/C nanocomposite and assessment of market value of technology |
Автор |
Kiselev B. G., Kozhitov L. V., Muratov D. G., Savkina A. V., Popkova A. V. |
Информация об авторе |
1“SPONK” JSC, Moscow, Russia; 2National University of Science and Technology “MISIS”, Moscow, Russia:
B. G. Kiselev, Chief Executive Officer1, Head of a Chair of Applied Economics2, phone: +7(495)9504855
National University of Science and Technology “MISIS”, Moscow, Russia:
L. V. Kozhitov, Professor, Chair of Electronic Engineering Materials' Technology
A.V. Savkina, Economist, Graduate of a Chair of Applied Economics A. V. Popkova, Post-Graduate Student, Chair of Electronic Engineering Materials' Technology
A. V. Topchiev Institute of Petrochemical Synthesis, Moscow, Russia:
D. G. Muratov, Senior Researcher |
Реферат |
The manufacturing methods of FeCo/C nanocomposite, which have various spheres of application, were developed in National University of Science and Technology “MISIS”. With a view of commercialization of manufacturing methods, there was held the project feasibility study of manufacturing of FeCo/C nanocomposite and its market value reckoning. Manufacturing of FeCo/C nanocomposite is an object intellectual property. This article contains the description of key players and long-range forecast of development until 2020. There is also shown the structure of FeCo/C nanocomposite consumption in different branches. The developed technology makes possible to get the considerable output volume without losses of unique properties. The range of FeCo/C nanocomposite is various. The test sample of FeCo/C nanocomposite, obtained in research laboratory, makes it possible to organize the experimental service of FeCo/C nanocomposite with further researching. The feasibility study of FeCo/C nanocomposite was made for the cash flow valuation. This project has the following financial activities: — output volume in value terms, equal to 91.4 mln. rub. per year; — total costs, equal to 26.3 mln. rub.; — net income, equal to 39.0 mln. rub.; — product profitability on net profit, equal to 148%; — manufacturing profitability, equal to 262%; — cost per ruble of sales, equal to 0.28 rub. / rub. The market value of the considered technology was found by profitable and cost-based methods. The market value, calculated by the profitable method, was 1.03 mln. rub., when the market value, calculated by the cost-based method, was 13.5 mln. rub. The calculations have shown, that during the manufacturing of nanocomposite by the developed technology (5% of Russian market of nanocomposites), the market value of manufacturing technology is 10.97 mln. rub. Introduction of this technology on experimental service is efficient, valuable and reasonable. |
Ключевые слова |
Nanotechnology, nano-composites, nanomaterials market, feasibility studies, market value, cost and market approaches |
Библиографический список |
1. Perspektivy razvitiya rynka nanotekhnologiy v Rossii (Prospects of development of nanotechnology market in Russia). Rossiyskiy elektronnyy nanozhurnal — Russian electronic nanojournal. September 30, 2010. Available at : http://nanorf.ru/events.aspx?cat_id=224&d_no=2767. 2. Marketingovoe issledovanie rynkov nanokompozitov (versiya 3) (Marketing research of nanocomposites' market (version 3)). Nanomarket (Nanomarket). October 28, 2009. Available at : http://www.nanomarket.ru/gds/marketingovoe-issledovanierynka-nanokompozitov-ver-3. 3. Global Nanocompozit Market To Reach 1.5 Billion Pounds (Ibs) by 2017, According to New Report by Global Industry Analysts, Inc. PR Web. March 27, 2012. Available at : http://www.prweb.com/releases/nanocomposites/packaging_construction/prweb9335093.htm. 4. Kodolov V. I., Kovyazin Yu. V., Zakharov A. I., Kovyazina O. A., Trineeva V. V. Opyt proizvodstva i primeneniya metall/uglerodnykh nanokompozitov (Experience of production and application of metall/carbonic nanocomposites). Okhrana okruzhayushchey sredy (Environmental protection). 2010. Available at : http://www.eco-oos.ru/biblio/konferencii/prioritetnye-napravleniia-razvitiia-nauki-i-tekhnologii-x/95/. 5. Yong Yang, Cailing Xu, Yongxin Xia, Tao Wang, Fashen Li. Synthesis and microwave absorption properties of FeCo nanoplates. Journal of Alloys and Compounds. 2010. pp. 549–552. 6. Metodicheskie rekomendatsii po planirovaniyu, formirovaniyu i uchetu zatrat na proizvodstvo i realizatsiyu produktsii (rabot, uslug) predpriyatiy metallurgicheskogo kompleksa (Methodical recommendations on planning, formation and accounting of costs on production and realization of products (works, services) of metallurgical complex enterprises). Moscow : “Novye vozmozhnosti” LLC, 2004. 7. Kiselev B. G. Ob otsenke rezultatov intellektualnoy sobstvennosti (About assessment of intellectual property results). Sbornik dokladov nauchno-prakticheskogo seminara “Nauchnotekhnologicheskoe obespechenie deyatelnosti predpriyatiya, institutov i firm” (Collection of reports of scientific-practical seminar “Scientific-technological provision of activity of enterprise, institutes and companies”). Moscow : National University of Science and Technology “MISIS”, 2003. 8. Boer F. P. Otsenka stoimosti tekhnologii (Assessment of cost of technology). Moscow : Olip-Business, 2007. 9. Kiselev B. G. Otsenka tekhnologiy — odin iz elementov kommertsializatsii intellektualnoy sobstvennosti (Assessment of technologies is one of elements of commercialization of intellectual property). Sbornik tezisov dokladov Mezhdunarodnoy nauchno-prakticheskoy konferentsii “Metallurgiya tsvetnykh metallov. Problemy i perspektivy” (Collection of thesis of reports of International Scientific-Practical Conference “Metallurgy of non-ferrous metals. Problems and prospects”). Moscow : National University of Science and Technology “MISIS”, 2009. |
Language of full-text |
русский |
Полный текст статьи |
Получить |