DC pole | Wartość | Język |
dc.contributor.author | Bochenek, Dariusz | - |
dc.contributor.author | Grabowski, Filip | - |
dc.contributor.author | Niemiec, Przemysław | - |
dc.date.accessioned | 2018-08-01T04:55:55Z | - |
dc.date.available | 2018-08-01T04:55:55Z | - |
dc.date.issued | 2011 | - |
dc.identifier.citation | Archives of Metallurgy and Materials, Vol. 56, iss. 4 (2011), s.1071-1076 | pl_PL |
dc.identifier.issn | 1733-3490 | - |
dc.identifier.uri | http://hdl.handle.net/20.500.12128/5638 | - |
dc.description.abstract | Within our work a ceramic of the PFN type was obtained by a single stage method and it was subjected to a cobalt modification in the amount of: 1.0, 2.0, 3.0, 4.0 and 6.0 mol%. Studies of the influence of the cobalt admixture on the crystalline structure, microstructure and ferroelectric properties of PFN ceramics were performed. It was shown that the iso-valence PFN admixing with cobalt had a positive influence on the density and ceramic microstructure. Higher cobalt admixtures (above 1.0 mol%) in PFN eliminate pyrochlore phase formation, and at the same time they reduce maximum electric permittivity values. The ferroelectric to paraelectric phase transition in the modified PFN compositions undergoes diffusion. | pl_PL |
dc.language.iso | en | pl_PL |
dc.publisher | Institute of Metallurgy and Materials Science, Polish Academy of Sciences | pl_PL |
dc.relation | N R15 0005 04 | pl_PL |
dc.rights | Uznanie autorstwa-Użycie niekomercyjne-Bez utworów zależnych 3.0 Polska | * |
dc.rights.uri | http://creativecommons.org/licenses/by-nc-nd/3.0/pl/ | * |
dc.subject | multiferroics | pl_PL |
dc.subject | smart materials | pl_PL |
dc.subject | ferroelectromagnetics | pl_PL |
dc.subject | PFN ceramics | pl_PL |
dc.title | Influence of cobalt admixture on the microstructure and dielectric properties of PFN ceramics | pl_PL |
dc.type | info:eu-repo/semantics/article | pl_PL |
dc.relation.journal | Archives of Metallurgy and Materials | pl_PL |
dc.identifier.doi | 0.2478/v10172-011-0119-4 | - |
dc.description.references | [1] S.B. M a j u m d e r, S. B h a t t a c h a r y y a, R.S. K a t i y a r, A. M a n i v a n n a n, P. D u t t a, M.S.
S e e h r a, Journal of Applied Physicss 99, 024108 (2006).
[2] D. B o c h e n e k, Z. S u r o w i a k, J. K r o k - K o w a l s k i, J. P o l t i e r o v a - V e -j p r a v o v a, Journal of Electroceramics 25, 122 (2010).
[3] D. K h o m s k i i, Physics 2, 20 (2009).
[4] O. R a y m o n d, R. F o n t, N. S u a r e z, J. P o r t e l l e s, J. M. S i q u e i r o s, Ferroelectrics 294,
141 (2003).
[5] H. B r u n c k o v a, L. M e d v e c k y, J. M i h a l i k, Journal of European Ceramic Society 28, 123 (2008).
[6] D. B o c h e n e k, R. Z a c h a r i a s z, Archives of Metallurgy and Materials 54, 903 (2009).
[7] D. B o c h e n e k, Z. S u r o w i a k, Journal of Alloys and Compounds 480, 732 (2009).
[8] K. S i n g h, S.A. B a n d, W.L. K i n g e, Ferroelectrics 306, 179, (2004).
[9] M.H. L e n t e, J.D.S. G u e r r a, G.K.S. d e S o u z a, B.M. F r a y g o l a, C.F.V. R a i g o z a, D. G a r c i a,
J.A. E i r a s, Physical Review B 78, 054109 (2008).
[10] Z. S u r o w i a k, D. B o c h e n e k, Materiały ceramiczne/Ceramic Materials 4, 124 (2004).
[11] K. O s i ń s k a, J. M a s z y b r o c k a, J. P l e w a, D. C z e k a j, Archives of Metallurgy and Materials 54, 911 (2009).
[12] B. W o d e c k a - D u ś, D. C z e k a j, Archives of Metallurgy and Materials 54, 923 (2009).
[13] D. B o c h e n e k, Z. S u r o w i a k, Physica Status Solidi A 206, 12, 2857 (2009).
[14] O. R a y m o n d, R. F o n t, N. S u a r e z, J. P o r t e l l e s, J. M. S i q u e i r o s, Ferroelectrics 294,
141 (2003). | pl_PL |
Pojawia się w kolekcji: | Artykuły (WNŚiT)
|