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OXIDATION HEAT EFFECTS OF METAL NANOPOWDERS AFTER ELECTRON IRRADIATION

Dilmukhambetov, Yessen, Espolov, Tilektes, Ospanova, Madina, Ilyin, Alexander

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b61/s24.019View metrics

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Title
OXIDATION HEAT EFFECTS OF METAL NANOPOWDERS AFTER ELECTRON IRRADIATION
Authors
Dilmukhambetov, Yessen, Espolov, Tilektes, Ospanova, Madina, Ilyin, Alexander
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on NANO, BIO AND GREEN TECHNOLOGIES FOR A SUSTAINABLE FUTURE
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-20-9
Language
en
Publication type
Conference Paper
Keywords
References30
  1. Gromov A. A., Förter -Barth U., Teipel U. Aluminum nanopowders produced by electrical explosion of wires and passivated by non-inert coatings: Characterisation and reactivity with air and water. J. Powder Tech., 2006, № 164, 111–115

  2. Teipel U. Energetic Materials. Wiley, 2004, 643

  3. Iliyn, A.P. About activity of aluminum powders. Physics of Combustion and Explosion, 2001. V. 37, № 4, 58-62(in Russian) Section Micro and Nano Technologies

  4. Wu,Y., Hao S., Yang Y., Wang M. and Deng J. Electrical Explosion of Wires Applying in Nanometer Materials Preparation. J. Pulsed Power Applications, 2010, 505-507

  5. Lerner, M.I., Svarovskaya, N.V., Psahiye, S.G., Bakina, O.V. Technology of obtaining, features, and some uses of electroexplosive metal nanopowders. Russian Nanotechnology, 2009, V4, №11–12, 56-68 (in Russian)

  6. Nazarenko, O.B. Electroexplosive nanopowders: Preparation, properties and application. Tomsk: Pub. TSU, 2005, 148-152 (in Russian)

  7. Iliyn, A.P., Korshunov, A.V., Tolbanova, L.O. Structure, properties and problems in certification of metal nanopowders. Bulletin of the Tomsk Polytechnic University, 2009, V. 314, № 3, 35-40 (in Russian)

  8. Rutherford A. M., Duffy D. M. The effect of electron –ion interactions on radiation damage simulations. J. Phys.: Condens. Matter, 2007, 19, 1-9

  9. Was Gary S. Fundamentals of Radiation Materials Science. Springer, 2007, 827, ISBN 978-3 -540-49471-3

  10. Sickafus K. E., Kotomin, E. A. and Uberuaga B. P. Radiation Effects in Solids. - NATO Science Series, 2007, 235

  11. Rong, M. Zh., Zhang M. Q., Wang H. B., Zeng H. M. Surface modification of magnetic metal nanoparticles through irradiation graft polymerization. J.Applied Surface Science, 2002, № 200, 76 –93

  12. James, F. H., Daniel, N. S. Patent application title: Methods of enhancing radiation effects with metal nanoparticles. - NanoProbes, Inc. Patent application number: 20090186060

  13. Gromov, A. A., Richardson, H. H. Generating heat with metal nanoparticles. J. Nano Today, 2007, 2(1), 30-38

  14. Kurt, E.S., Eugene, A.K., & Blas, P.U. Radiation Effects in Solid. NATO Science Series, 2007, 235

  15. Tribus M. Thermostatics and thermodynamics.Princeton, New Jersey, 1970, 501 14th SGEM GeoConference on Nano, Bio and Green – Technologies for a Sustainable Future

  16. Gromov A. A., Förter -Barth U., Teipel U. Aluminum nanopowders produced by electrical explosion of wires and passivated by non-inert coatings: Characterisation and reactivity with air and water. J. Powder Tech., 2006, № 164, 111–115

  17. Teipel U. Energetic Materials. Wiley, 2004, 643

  18. Iliyn, A.P. About activity of aluminum powders. Physics of Combustion and Explosion, 2001. V. 37, № 4, 58-62(in Russian) Section Micro and Nano Technologies

  19. Wu,Y., Hao S., Yang Y., Wang M. and Deng J. Electrical Explosion of Wires Applying in Nanometer Materials Preparation. J. Pulsed Power Applications, 2010, 505-507

  20. Lerner, M.I., Svarovskaya, N.V., Psahiye, S.G., Bakina, O.V. Technology of obtaining, features, and some uses of electroexplosive metal nanopowders. Russian Nanotechnology, 2009, V4, №11–12, 56-68 (in Russian)

  21. Nazarenko, O.B. Electroexplosive nanopowders: Preparation, properties and application. Tomsk: Pub. TSU, 2005, 148-152 (in Russian)

  22. Iliyn, A.P., Korshunov, A.V., Tolbanova, L.O. Structure, properties and problems in certification of metal nanopowders. Bulletin of the Tomsk Polytechnic University, 2009, V. 314, № 3, 35-40 (in Russian)

  23. Rutherford A. M., Duffy D. M. The effect of electron –ion interactions on radiation damage simulations. J. Phys.: Condens. Matter, 2007, 19, 1-9

  24. Was Gary S. Fundamentals of Radiation Materials Science. Springer, 2007, 827, ISBN 978-3 -540-49471-3

  25. Sickafus K. E., Kotomin, E. A. and Uberuaga B. P. Radiation Effects in Solids. - NATO Science Series, 2007, 235

  26. Rong, M. Zh., Zhang M. Q., Wang H. B., Zeng H. M. Surface modification of magnetic metal nanoparticles through irradiation graft polymerization. J.Applied Surface Science, 2002, № 200, 76 –93

  27. James, F. H., Daniel, N. S. Patent application title: Methods of enhancing radiation effects with metal nanoparticles. - NanoProbes, Inc. Patent application number: 20090186060

  28. Gromov, A. A., Richardson, H. H. Generating heat with metal nanoparticles. J. Nano Today, 2007, 2(1), 30-38

  29. Kurt, E.S., Eugene, A.K., & Blas, P.U. Radiation Effects in Solid. NATO Science Series, 2007, 235

  30. Tribus M. Thermostatics and thermodynamics.Princeton, New Jersey, 1970, 501 14th SGEM GeoConference on Nano, Bio and Green – Technologies for a Sustainable Future

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