Nanobuild-5-2014-pages-68-85

Posted onAuthorNanobuildCategoriesБез рубрики

Pages: 68 – 85 

 

УДК 66.011

Results of research in the area of nanotechnologies and nanomaterials. Part 5.

 

Authors:  KARPOV Alexey Ivanovich, Ph.D. in Engineering, referent, International Academy of Engineering; Gazetny str., 9, bld. 4, 125009, Moscow, Russian Federation, e-mail: info@nanobuild.ru

 

Extended Abstract: To popularize scientific achievements in construction the main results of Russian and foreign scientists’ research are published in the form of abstract. These are main results of the research «Polymer construction nanocomposites based on polyvinylchloride»: technological recommendations on the use of multilayer carbon nanotubes, silicagel functionalized with the sulfur and silica sol in receipts of shape-moulded PVC-products for construction industry which allow increasing strength by 12–25%, thermal stability by 35–50% and decreasing melt viscosity (the factor increases 2–5 times); receipts and technology for production of high-filled construction composites based on PVC functionalized with silica sol and wood flour with population up to 68 mass.% when molding index is increased 12 times and thermal stability is increased by 60%.

The specialists may be interested in the results of the following research:

– I.S. Maeva «Modification of anhydride compositions with ultra- and nanodispersed additives»;

– E.G. Chebotareva «Nanomodified composites of construction purpose with the use of epoxy resin»;

– A.A. Volodchenko «Non-autoclave silicate materials with the use of natural nanodispersed raw materials»;

– O.V. Popkova «Production and properties of metal-containing nanoparticles (Fe, Co, Ni, Zn, Ce, Cd, Pd, Ag, Mo), stabilized by nanodiamond of denotational synthesis and high pressure polyethylene»;

– M.A. Fronya «Complex study of mechanical properties and structure of polymer composite materials with carbon modification fillers: nanotubes and ultradispersed diamonds»;

– M.S. Babaeva «Production and study of nanoparticles of polymer-colloid complexes based on polymers of N,N-diallyl-N,N-chloride dimethylammonium and natrium dodecylsulfate».

Published materials can be used by the specialists in their scientific and practical activities in construction, housing and communal services as well as in the joint economical spheres.

 

Key words: construction polymer nanocomposites, nanoparticles, nanosystems.

 

DOI: dx.doi.org/10.15828/2075-8545-2014-6-5-68-85

 

References:

  1. Ashrapov A.Kh. Polimernye nanokompozity stroitel’nogo naznachenija na osnove polivinilhlorida: Avtoref. dis. kand. tehn. nauk. – Jelektronnaja biblioteka dissertacij [Polymer construction nanocomposites based on polyvinylchloride] Abstract of Ph.D. thesis. Electronic library of theses. Available at: http://dslib.net (date of access: 15.09.2014).
  2. Aldoshin S.M. Polimernye nanokompozity – novoe pokolenie polimernyh materialov s povyshennymi jekspluatacionnymi harakteristikami [Polymer nanocomposites – a new generation of polymer materials with increased performance characteristics] S.M. Aldoshin, Je.R. Badamshina, E.N. Kablov. Moscow, Proc. of the International Forum on Nanotechnologies «Rusnanotech-08». 2008, V. 1, pp. 385–386.
  3. Karpov A.I. Development of nanotechnologies in construction – a task which is of great importance for scientists and engineers. Part 1. Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2013, Vol.5, no. 1, pp. 42–55. Available at: http://nanobuild.ru/en_EN/ (Accessed: 15.09.2014). (In Russian).
  4. Karpov A.I. Development of nanotechnologies in construction – a task which is of greatimportance for scientists and engineers. Part 2. Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2013, Vol.5, no. 2, pp. 43–54. Available at: http:// nanobuild.ru/en_EN/ (Accessed: 15.09.2014). (In Russian).
  5. Volodchenko A.A. Bezavtoklavnye silikatnye materialy s ispol’zovaniem prirodnogo nanodispersnogo syr’ja: Avtoref. dis. kand. tehn. nauk: – Jelektronnaja biblioteka dissertacij [Non-autoclave silicate materials with the use of natural nanodispersed raw materials]. Abstract of Ph.D. thesis. Electronic library of theses. Available at: http://dslib.net (Date of access: 15.09.2014).
  6. Babaev M.S. Poluchenie i issledovanie nanochastic polimer-kolloidnyh kompleksov na osnove polimerov N,N-diallil-N,N-dimetilammonij hlorida i dodecilsul’fata natrija [Production and study of nanoparticles of polymer-colloid complexes based on polymers of N,N-diallyl-N,N-chloride dimethylammonium and natrium dodecylsulfate] Abstract of Ph.D. thesis. Electronic library of theses. Available at: http://dslib.net (Date of access: 15.09.2014).
  7. Karpov A.I. Results of research in the area of nanotechnologies and nanomaterials. Part 1. Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2014, Vol. 6, no. 1, pp. 101–112. Available at: http://nanobuild.ru/en_EN/ (Accessed: 15.09.2014). (In Russian).
  8. Fronya M.A. Kompleksnoe issledovanie mehanicheskih svojstv i struktury polimernyh kompozitnyh materialov s napolniteljami v vide modifikacij ugleroda: nanotrubki i ul’tradispersnye almazy [Complex study of mechanical properties and structure of polymer composite materials with carbon modification fillers: nanotubes and ultradispersed diamonds] Abstract of Ph.D. thesis. Electronic library of theses. Available at: http://dslib.net (Date of access: 15.09.2014).
  9. Gusev B.V. Development of nanotechnologies – the most important technological direction in construction. Nanotechnologies Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2011, Vol. 3, no. 2. pp. 6–20. Available at: http://nanobuild.ru/ru_RU (Accessed: 15.09.2014).

Full text in PDF format (68 – 85)