Probabilistic analysis of structural properties distribution simulation for composite nanoparticles formed in gas phase

Authors

  • Alexandr Vasilievich Vakhrouchev Institute of Applied Mechanics UB RAS
  • Alexey Yurievich Fedotov Institute of Applied Mechanics UB RAS

DOI:

https://doi.org/10.7242/1999-6691/2008.1.3.25

Keywords:

Abstract

The mathematical model of condensation processes of composite nanoparticles from a gas phase is submitted. Calculation results of formation composite nanoparticles from silver and copper at vacuum evaporation and condensation are obtained. The basic nanoparticles properties are calculated. Numerical simulation of nanoparticles forming process is executed many times. The series of selective nanoparticles parameters such as number of nanoparticles in volume, its average diameter, average density and silver mass portion in nanoparticles are obtained. Lows of nanoparticles properties distribution are checked by means of Pirson criterion and statistic function. The analysis of evaluative parameters is executed for suggesting theoretical lows.

Downloads

Download data is not yet available.

References

Kompis V., Kompis M., Kaukic M., Hui D. Singular Trefftz Functions for Modelling Material Reinforced by Hard Particles. // Topping BHV, Montero G, Montenegro (eds) Proceedings of the Fifth International Conference on Engineering Computational Technology, CD-ROM Paper 184, Civil-Comp Press, Stirlingshire. - 2006.
Suzdalev I.P. Nanotehnologia: fiziko-himia nanoklasterov, nanostruktur i nanomaterialov. - M.: Izd-vo KomKniga, 2006. - 592s.
Vakhrouchev A.V. Simulation of Nano-Elements Interactions and Self-Assembling // Modeling and Simulation in Materials Science and Engineering. - 2006. - N. 14. - P. 975-991. DOI
Vakhrouchev A.V. Computer Simulation of Nanoparticles Formation, Moving, Interaction and Self-Organization // Journal of Physics: Conference Series. - 2007. - V. 61. - P. 26-30. DOI
Vakhrouchev A.V. Modelling of the Process of Formation and Use of Powder Nanocomposites // Composites with Micro and Nano-Structures. Computational Modeling and Experiments. Computational Methods in Applied Sciences Series. - Barcelona, Spain: Springer Science. - V. 9. - 2008. - P. 107-136.
Vahrusev A.V., Lipanov A.M. Cislennyj Analiz atomnoj struktury i formy metalliceskih nanocastic // Vycislitel’naa matematika i tehniceskaa fizika. - 2007. - T. 47, .No 10. - S. 1774-1783.
Alfimov M.V., Kadusnikov R.M., Sturkin N.A. i dr. Imitacionnoe modelirovanie processov samoorganizacii nanocastic // Rossijskie nanotehnologii. - 2006. - T. 1, No 1-2. - S. 127-133.
Vahrusev A.V., Lipanov A.M. Rascet potenciala parnogo vzaimodejstvia nanocastic // Himiceskaa fizika i mezoskopia. - 2005. - T. 7, No 1. - S. 53-62.
Krivtsov A.M., Wiercigroch M. Molecular Dynamic Simulation of Mechanical Properties for Polycrystal Materials // Materials Physics and Mechanics. - 2001. - V. 3(1). - PP. 45-51.
Rit M. Nanokonstruirovanie v nauke i tehnike. Vvedenie v mir nanorasceta. - Moskva-Izevsk: Izd-vo NIC <>, 2005. - 160s.
Heerman D.V. Metody komp’uternogo eksperimenta v teoreticeskoj fizike. - M.: Nauka, 1990. - 176s.
Verlet L. Computer <> on classical fluids. I. Thermodynamical properties of Lennard-Jones molecules // Phys. Rev. - 1967. - V. 159, N. 1. - PP. 98-103. DOI
Kendall M., St’uart A. Statisticeskie vyvody i svazi. - M.: Nauka, 1973. - 899s.
Sturgess H.A. The choice of classic intervals // J. American Statist. Ass. - 1926. - March. - P. 47.
Tutubalin V.N. Teoria veroatnostej i slucajnyh processov. Osnovy matematiceskogo apparata i prikladnye aspekty. - M.: Izd-vo MGU, 1992. - 400c.
Vahrusev A.V., Fedotov A.U. Issledovanie processov formirovania kompozicionnyh nanocastic iz gazovoj fazy metodom matematiceskogo modelirovania // Himiceskaa fizika i mezoskopia. - 2007. - T. 9, No 4. - S. 333-347.
Vahrusev A.V., Fedotov A.U. Modelirovanie formirovania kompozicionnyh nanocastic iz gazovoj fazy // Al’ternativnaa energetika i ekologia. - 2007. - No 10. - S. 22-26.
Stauffer D. Annual Reviews of Computational Physics. - World Scientific, 2001. - 332p.

Downloads

Published

2008-04-01

Issue

Vol. 1 No. 3 (2008)

Section

Articles

License

Copyright (c) 2008 Computational Continuum Mechanics

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

How to Cite

Vakhrouchev, A. V., & Fedotov, A. Y. (2008). Probabilistic analysis of structural properties distribution simulation for composite nanoparticles formed in gas phase. Computational Continuum Mechanics, 1(3), 34-45. https://doi.org/10.7242/1999-6691/2008.1.3.25