Issues »  Volume 36, Issue 3

Competition of Frenkel and Kirkendall Effects at Interdiffusion

N. V. Storozhuk, A. M. Gusak

The Bohdan Khmelnytsky National University of Cherkasy, 81 Shevchenko Blvd., 18031 Cherkasy, Ukraine

Received: 16.12.2013. Download: PDF

The process of voids’ growth during interdiffusion is considered. The numerical model of the voids’ growth in the diffusion zone of binary diffusion couple under competition between lattice shift and voids’ formation is presented. The influence of Kirkendall sinks’ power on the void growth kinetics is studied. The dependence of average void radius on the mean free path of vacancies is found. Evolution of voids size distribution is determined.

Key words: diffusion, Frenkel effect, Kirkendall effect, binary system, mean free path of vacancies, voids formation.

URL: http://mfint.imp.kiev.ua/en/abstract/v36/i03/0367.html

DOI: https://doi.org/10.15407/mfint.36.03.0367

PACS: 61.72.Bb, 61.72.jd, 61.72.Lk, 61.72.Qq, 66.30.-h

Citation: N. V. Storozhuk and A. M. Gusak, Competition of Frenkel and Kirkendall Effects at Interdiffusion, Metallofiz. Noveishie Tekhnol., 36, No. 3: 367—374 (2014) (in Russian)

REFERENCES
  1. K. N. Tu, Solder Joint Technology (New York: Springer: 2007).
  2. K. N. Tu, Electronic Thin-Films Reliability (New York: Cambridge University: 2011).
  3. Ya. E. Geguzin, Diffuzionnaya Zona (Moscow: Nauka: 1979) (in Russian).
  4. Ya. E. Geguzin, N. Ch. Bao, and L. N. Paritskaya, Fizika Metallov i Metallovedenie, 27, No. 3: 450 (1969) (in Russian).
  5. Y. Yin, R. M. Rioux, C. K. Erdonmez, S. Hughes, G. A. Somorjai, and A. P. Alivisatos, Science, 304, No. 5671: 711 (2004). Crossref
  6. Y. Yin, C. K. Erdonmez, A. Cabot, S. Hughes, and A. P. Alivisatos, Adv. Functional Mater., 16: 1389 (2006). Crossref
  7. H. J. Fan, M. Knez, R. Scholz, D. Hesse, K. Nielsch, M. Zacharias, and U. Gösele, Nano Letters, 7, No. 4: 993 (2007). Crossref
  8. R. Nakamura, J.-G. Lee, H. Mori, and H. Nakajima, Philos. Mag., 88: 257 (2008). Crossref
  9. G. Glodán, C. Cserháti, I. Beszeda, and D. L. Beke, Appl. Phys. Lett., 97: 113109 (2010). Crossref
  10. G. Glodán, C. Cserháti, I. Beszeda, and D. L. Beke, Philos. Mag., 92: 3806 (2012). Crossref
  11. A. M. Gusak, T. V. Zaporozhets, K. N. Tu, and U. Gösele, Philos. Mag., 85: 4445 (2005). Crossref
  12. A. M. Gusak and K. N. Tu, Acta Mater., 57: 3367 (2009). Crossref
  13. A. M. Gusak and T. V. Zaporozhets, J. Phys. Condens. Matter, 21: 415303 (2009). Crossref
  14. A. M. Gusak, T. V. Zaporozhets, Yu. O. Lyashenko et al., Diffusion-Controlled Solid State Reactions: in Alloys, Thin-Films and Nanosystems (Berlin: Wiley-VC: 2010). Crossref
  15. N. V. Tyutyunnyk and A. M. Gusak, Ukr. J. Phys., 57, No. 6: 628 (2012) (in Ukrainian).
  16. A. M. Gusak and N. V. Storozhuk, Fizika Metallov i Metallovedenie, 114, No. 3: 217 (2013) (in Russian). Crossref
  17. A. M. Gusak, T. V. Zaporozhets, K. N. Tu, and U. Gösele, Philos. Mag., 85: 4445 (2005). Crossref
  18. N. V. Storozhuk, Visnyk Cherkasy Univ. Seriya Fizyko-Matematychni Nauky, 16, Iss. 229: 40 (2011) (in Ukrainian).

© 2013–2017 "G.V. Kurdyumov Institute for Metal Physics"