Thesises defended by coworkers of Lab

N	Author	Year	Appellation
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 Bi_1.8Pb_0.3Sr₂Ca₂Cu_2,7K_0,3O_z 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, Ni_x(NaF₂)_100-x and Ni_x(PZT)_100-x granular nanocomposites. Voronezh, VSTU, 2008.
40	A.G. Gorshkov	2008	Features of properties of Ni_x(LiNbO₃)_100-x, Ni_x(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 PbZr_0,53Ti_0,47O_{3 –}Mn_0,4Zn_0,6Fe₂O₄. 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.