Thesises defended by coworkers of Lab

NAuthorYearAppellation
1 V.S. Pavlov 1968 The study of relaxation processes in ferroelectric ceramics based on lead zirconate-titanate, Voronezh, Polytechnical Institute.
2 S.A. Gridnev 1969 The study of internal friction in ferroelectric ceramic materials with perovskite structure, Voronezh, Polytechnical Institute.
3 E.N. Bessonova 1972 The influence of point defects on some relaxation properties of polycrystalline lead zirconate-titanate, Voronezh, Polytechnical Institute.
4 L.D. Kaverin 1972 Some relaxation processes in single crystals of lithium metaniobate, Voronezh, Polytechnical Institute.
5 V.N. Fedosov 1973 The influence of domain boundary structure on relaxation phenomena in ferroelectrics and ferromagnetics, Voronezh, Polytechnical Institute.
6 A.P. Kotov 1973 Relaxation phenomena in ferroelectrics related to the interaction between point defects and domain boundaries, Voronezh, Polytechnical Institute.
7 M.M. Mochalov 1975 Low-frequency mechanical relaxation in antiferromagnite oxides NiO and CoO, Voronezh, Polytechnical Institute.
8 B.N. Prasolov 1979 The features of infralow-frequency internal friction in ferroelastics and ferroelectrics (e.g. KH2PO4, Gd2(MoO4)3, KH3(SeO3)2 and LiNbO3), Voronezh, Polytechnical Institute.
9 V.N. Nechaev 1980 Structure and internal friction of defects in ferroelectrics and ferroelastics, Voronezh, Polytechnical Institute.
10 V.I. Kudrjash 1981 Ultralow-frequency mechanical relaxation in pure proper ferroelectrics KH3(SeO3)2 and KD3(SeO3)2, Voronezh, Polytechnical Institute.
11 I.A. Dronov 1983 Experimental study of features of ultralow-frequency internal friction in some proper and improper ferroelectrics and ferroelastics, Voronezh, Polytechnical Institute.
12 S.A. Gridnev 1984 Mechanisms of internal friction in ferroelectrics and ferroelastics, Voronezh, Polytechnical Institute.
13 V.M. Popov 1985 Mechanisms of low-frequency dielectric loss in some real ferroelectrics, Voronezh, Polytechnical Institute.
14 V.V. Bondarenko 1985 Low-frequency mechanical and dielectric properties of ferroelectric crystals at low temperatures, Voronezh, Polytechnical Institute.
15 A.G. Luchaninov 1986 Piezoeffect in electrically-depolarized polycrystalline ferroelectrics, Volgograd, Polytechnical Institute.
16 I.V. Illarionov 1987 Ferroelectric phase transitions in crystalline solids with structural defects, Voronezh, Polytechnical Institute.
17 V.G. Sannikov 1988 Low-frequency mechanical and dielectric relaxation in K2ZnCl4 and Rb2ZnCl4 crystals, Voronezh, Polytechnical Institute.
18 O.N. Ivanov 1990 The influence of ferroelastic twins on properties of superconducting ceramics YBa2Cu3O7, Voronezh, Polytechnical Institute.
19 B.N. Prasolov 1992 Long-term relaxation processes in ferroelectrics and ferroelastics, Voronezh, State Univ.
20 V.V. Gorbatenko 1994 Dynamics of domain boundaries and solitons in the ferroelectric crystal Rb2ZnCl4, Voronezh, Tech. Univ.
21 L.N. Korotkov 1994 Dynamics of a transition to proton glass state in mixed crystals of potassium-ammonium dihydrophosphate, Voronezh, Tech. Univ.
22 I.A. Safonova 1998 Dielectric relaxation in H-bonded ferroelectrics that is due to domain boundary dynamics, Voronezh, Tech. Univ.
23 S.A. Kravchenko 1998 Low-frequency internal friction in the crystals of KH2PO4-family, Voronezh, Tech. Univ.
24 S.V. Popov 1998 Domain boundary dynamics and relaxation phenomena in ferroelectric solid solutions with perovskite structure, Voronezh, Tech. Univ.
25 A.A. Khodorov 1998 Internal friction and conductivity of KLiSO4 crystal in the vicinity of high-temperature phase transition, Voronezh, Tech. Univ.
26 A.N. Tsotsorin 2000 Dielectric relaxation and diffuse phase transition in PMN-PZT solid solution, Voronezh, Tech. Univ.
27 A.V. Biryukov 2000 Internal friction in the ferrielastic phase of BaNa2Nb5O15 crystal, Voronezh, Tech. Univ.
28 S.A. Konstantinov 2001 Dielectric and electrical properties of an amorphous material based on PbTiO3. Voronezh, Tech. Univ.
29 L.P. Mikhailova 2002 Internal friction and conductivity of weak ferroelectric ammonium sulfate. Voronezh, Tech. Univ.
30 O.N. Ivanov 2002 Ferroelastic properties and structural instability of high-temperature metal-oxide superconductors. Voronezh, Tech. Univ.
31 A.A. Glazunov 2002 The computer analysis of a dielectric relaxation in relaxors. Voronezh, Tech. Univ.
32 E.V. Ukhin 2003 Ferroelastic properties of virtual ferroelectric SrTiO3 and solid solutions on its base. Voronezh, Tech. Univ.
33 M.A. Belousov 2003 Acoustic and dielectric properties of some solid solutions based on sodium niobate. Voronezh, Tech. Univ.
34 L.N. Korotkov 2004 Effect of structural disordering on physical properties of some classes of weakly ordered polar dielectrics. Voronezh, Tech. Univ.
35 A.A. Glazunov 2005 Dielectric relaxation in ferroelectric ceramic solid solutions PMN-PZT. Voronezh, Tech. Univ.
36 N.I. Repnikov 2006 Relaxation processes and crystallization of amorphous dielectrics based on Bi1.8Pb0.3Sr2Ca2Cu2,7K0,3Oz and PbTiO3Voronezh, Tech. Univ.
37 E.A. Skriptchenko 2007 Features of dielectric and mechanical properties of ferroelectrics-ferroelastics with magnetic ordering. Voronezh, VSTU, 2007.
38 V.S. Dvornikov 2008 Electrical, elastic and anelastic properties of nanocomposites of NaNO2 system - porous glass. Voronezh, VSTU, 2008.
39 D.P. Tarasov 2008 Elastic, anelastic and magnetic properties of (Co45Fe45Zr10)x(Al2O3)100-x, Nix(NaF2)100-x and Nix(PZT)100-x granular nanocomposites. Voronezh, VSTU, 2008.
40 A.G. Gorshkov 2008 Features of properties of Nix(LiNbO3)100-x, Nix(PbZrTiO3)100-x and (x)NiZnFe2O4 – (1-x)PbZrTiO3 magnetoelectric composites. Voronezh, VSTU, 2008.
41 A.V. Kalgin  2010

Mutual effect of phases and magnetoelectric interaction in composites PbZr0,53Ti0,47O3 – Mn0,4Zn0,6Fe2O4. The PhD dissertation,Voronezh, VSTU,2010.

42 O.A. Karaeva 2010

Dielectric and mechanical properties of composite materials based on copolymers VDF and porous glass.  The PhD dissertation,Voronezh, VSTU, 2010.

43 N.A. Tolstykh 2012 Phase transitions and relaxation processes in lead-free ceramic materials Bi (B'B'') O3, where B '= Li, Co, Ni, Mg, Zn; B'' = Sb, W. Voronezh, VSTU, 2012.
© 2013 Лаборатория сегнетоэлектриков

Все права защищены! Ура!
Hosted by uCoz