Your search keyword '"Shilkina, L.A."' showing total 25 results

1. Dielectric relaxation, crystal structure and magnetic phenomena in solid solutions based on alkali metal niobates and bismuth ferrite in a wide range of external influences

Author

Moysa, M.O., Pavlenko, A.V., Shilkina, L.A., Kubrin, S.P., Andryushin, K.P., and Reznichenko, L.A.

Published

2024

2. Evolution of the macroresponses during the transition from two-to six-component systems of the solid solutions with fundamentally different properties

Author

Andryushin, K.P., Mazuritsky, M.I., Galatova, A.O., Il'ina, M.V., Soboleva, O.I., Nagaenko, A.V., Shilkina, L.A., Dudkina, S.I., Andryushina, I.N., Rudskaya, A.G., Khasbulatov, S.V., Sadykov, Kh.A., and Reznichenko, L.A.

Published

2023

3. The effects of the modification of the BST-system solid solutions with rare earth elements

Author

Andryushin, K.P., Shilkina, L.A., Khasbulatov, S.V., Nagaenko, A.V., Dudkina, S.I., Andryushina, I.N., Sadykov, KhA., Verbenko, I.A., Rudskaya, A.G., and Reznichenko, L.A.

Published

2022

4. The influence of thermodynamic background on the phase picture, macroresponses and the effects of the temporary aging of lead titanium doped with alkaline earth metal oxides

Author

Nagaenko, A.V., Andryushina, I.N., Andryushin, K.P., Shilkina, L.A., Rudskaya, A.G., and Reznichenko, L.A.

Published

2021

5. Crystal structure, polarization properties and reverse nonlinearity of solid solutions of the KNN-PZT system in a wide range of external influences

Author

Andryushin, K.P., Shilkina, L.A., Andryushina, I.N., Moysa, M.O., Rudsky, D.I., and Reznichenko, L.A.

Published

2021

6. Multicomponent ferroactive materials for low-frequency applications: Features of the crystal and grain structure, macro-responses

Author

Andryushin, K.P., Shilkina, L.A., Andryushina, I.N., Pavlenko, A.V., Nagaenko, A.V., Verbenko, I.A., and Reznichenko, L.A.

Published

2019

7. Structure, microstructure, dielectric and piezoelectric properties of (1-x-y)BiFeO3-xPbFe0.5Nb0.5O3-yPbTiO3 ceramics

Author

Boldyrev, N.A., Pavlenko, A.V., Shilkina, L.A., Nazarenko, A.V., Bokov, A.A., Reznichenko, L.A., Rudskaya, A.G., and Panchenko, E.I.

Published

2019

8. Features of the structure and macro responses in hard ferro piezoceramics based on the PZT system

Author

Andryushin, K.P., Andryushina, I.N., Shilkina, L.A., Nagaenko, A.V., Dudkina, S.I., Pavelko, A.A., Verbenko, I.A., and Reznichenko, L.A.

Published

2018

9. Variations in the microstructure and properties of multicomponent ferroelectric ceramics as a result of its modification by barium

Author

Reznichenko, L.A., Alyoshin, V.A., Shilkina, L.A., Talanov, M.V., and Dudkina, S.I.

Published

2014

10. The PZT system (PbTixZr1−xO3, 0≤x≤1.0): The dependences of electrophysical properties of solid solutions on the electric field strength and component concentration (Part 5)

Author

Andryushina, I.N., Reznichenko, L.A., Shilkina, L.A., Andryushin, K.P., Yurasov, Yu.I., and Dudkina, S.I.

Published

2013

11. The PZT system (PbTixZr1−xO3, 0≤x≤1.0): Dielectric response of solid solutions in broad temperature (10≤T≤1000 K) and frequency (10−2≤f≤107 Hz) ranges (Part 4)

Author

Andryushina, I.N., Reznichenko, L.A., Shmytko, I.M., Shilkina, L.A., Andryushin, K.P., Yurasov, Yu.I., and Dudkina, S.I.

Published

2013

12. The PZT system (PbTixZr1−xO3, 0≤x≤1.0): High temperature X-ray diffraction studies. Complete x-T phase diagram of real solid solutions (Part 3)

Author

Andryushina, I.N., Reznichenko, L.A., Shilkina, L.A., Andryushin, K.P., and Dudkina, S.I.

Published

2013

13. The PZT system (PbTixZr1–xO3, 0≤x≤1.0): The real phase diagram of solid solutions (room temperature) (Part 2)

Author

Andryushina, I.N., Reznichenko, L.A., Shilkina, L.A., Andryushin, K.P., and Dudkina, S.I.

Published

2013

14. The PZT system (PbZr1-xTixO3, 0.0≤x≤1.0): Specific features of recrystallization sintering and microstructures of solid solutions (Part 1)

Author

Andryushina, I.N., Reznichenko, L.A., Alyoshin, V.A., Shilkina, L.A., Titov, S.V., Titov, V.V., Andryushin, K.P., and Dudkina, S.I.

Published

2013

15. Relaxation dynamics, phase pattern in the vicinity of the Curie temperature, Fe valent state and the Mössbauer effect in PFN ceramics

Author

Pavlenko, A.V., Kozakov, A.T., Kubrin, S.P., Pavelko, A.A., Guglev, K.A., Shilkina, L.A., Verbenko, I.A., Sarichev, D.A., and Reznichenko, L.A.

Published

2012

16. Preparation, structure and piezoelectric properties of PZN-PMN-PT ceramics in the composition range of large PZN concentrations

Author

Reznitchenko, L.A., Verbenko, I.A., Razumovskaya, O.N., Shilkina, L.A., Bokov, A.A., Miller, A.I., and Talanov, M.V.

Published

2012

17. The PZT system (PbTi Zr1−O3, 0≤x≤1.0): The dependences of electrophysical properties of solid solutions on the electric field strength and component concentration (Part 5)

Author

Andryushina, I.N., primary, Reznichenko, L.A., additional, Shilkina, L.A., additional, Andryushin, K.P., additional, Yurasov, Yu.I., additional, and Dudkina, S.I., additional

Published

2013

18. The PZT system (PbTixZr1−xO3, 0≤x≤1.0): Dielectric response of solid solutions in broad temperature (10≤T≤1000K) and frequency (10−2≤f≤107Hz) ranges (Part 4)

Author

Andryushina, I.N., primary, Reznichenko, L.A., additional, Shmytko, I.M., additional, Shilkina, L.A., additional, Andryushin, K.P., additional, Yurasov, Yu.I., additional, and Dudkina, S.I., additional

Published

2013

19. The PZT system (PbTi Zr1−O3, 0≤x≤1.0): High temperature X-ray diffraction studies. Complete x-T phase diagram of real solid solutions (Part 3)

Author

Andryushina, I.N., primary, Reznichenko, L.A., additional, Shilkina, L.A., additional, Andryushin, K.P., additional, and Dudkina, S.I., additional

Published

2013

20. The PZT system (PbTixZr1–O3, 0≤x≤1.0): The real phase diagram of solid solutions (room temperature) (Part 2)

Author

Andryushina, I.N., primary, Reznichenko, L.A., additional, Shilkina, L.A., additional, Andryushin, K.P., additional, and Dudkina, S.I., additional

Published

2013

21. The PZT system (PbTi x Zr1−x O3, 0≤x≤1.0): The dependences of electrophysical properties of solid solutions on the electric field strength and component concentration (Part 5).

Author

Andryushina, I.N., Reznichenko, L.A., Shilkina, L.A., Andryushin, K.P., Yurasov, Yu.I., and Dudkina, S.I.

Subjects

*TITANIUM alloys, *LEAD zirconate titanate, *ELECTRIC field strength, *SOLID solutions, *PHYSICAL constants, *ELASTICITY, *VARACTORS

Abstract

Abstract: The physical properties of PZT (PbTi x Zr1−x O3, 0.0≤x≤1.0) ceramics were studied in broad ranges of constant and alternating electric field strengths (0kV/cm≤E≤30kV/cm). Dielectric, piezoelectric and elastic parameters of the solid solutions at room temperature were investigated. The results can be helpful to develop of PZT based materials for use in various high-voltage devices and bend components such as varactors, phase shifters, etc. [Copyright &y& Elsevier]

Published

2013

22. The PZT system (PbTi x Zr1−x O3, 0≤x≤1.0): High temperature X-ray diffraction studies. Complete x-T phase diagram of real solid solutions (Part 3)

Author

Andryushina, I.N., Reznichenko, L.A., Shilkina, L.A., Andryushin, K.P., and Dudkina, S.I.

Subjects

*LEAD zirconate titanate, *HIGH temperatures, *X-ray diffraction, *PHASE diagrams, *SOLID solutions, *CERAMIC materials, *PHASE transitions, *CRYSTAL structure

Abstract

Abstract: Based on high temperature x-ray diffraction studies of the PZT system (PbTi x Zr1−x O3, 0.0≤x≤1.0) the complete x-T phase diagram of solid solutions is built, which exhibits peculiar properties due to the real structure of ceramics: [-] irregularity of the phase transition line to the paraelectric state, which is more pronounced in the rhombohedral–tetragonal transition region; [-] appearance of intermediate “region of indistinct symmetry” at 0.2≤x≤1.0, which forestalls the transition to the non-polar cubic phase at temperature increase; [-] formation of two morphotropic regions: contracting (rhombic–rhombohedral) and expanding (rhombohedral–tetragonal) at temperature increase; [-] richness of single-symmetry phase diagram fragments by regions of coexistence of phase states. The homogeneity regions of the real solid solutions contain phase-boundary lines of a new type evidencing of intraphase transitions prevailing in the rhombohedral phase, which show up in the presence of two and more different cell values (preserving the global crystal lattice symmetry). [Copyright &y& Elsevier]

Published

2013

23. The PZT system (PbTixZr1–x O3, 0≤x≤1.0): The real phase diagram of solid solutions (room temperature) (Part 2)

Author

Andryushina, I.N., Reznichenko, L.A., Shilkina, L.A., Andryushin, K.P., and Dudkina, S.I.

Subjects

*LEAD zirconate titanate, *TITANIUM alloys, *PHASE diagrams, *SOLID solutions, *PHASE transitions, *CERAMIC materials, *CRYSTALLOGRAPHY

Abstract

Abstract: The sequence of phase transformations in the ceramic system PbTi x Zr1−x O3 (0≤x≤1.0) is determined and the real phase diagram of solid solutions is built. The observed periodicity of phase formation processes in the rhombohedral and tetragonal regions is explained by the real (defective) structure of PZT system ceramics, which is in many respects related to the variable valence of Ti ions and, as a result, to formation, accumulation, and ordering of point defects (oxygen vacancies) and their elimination by crystallographic shifts. The obtained results are useful in interpretation of the macroscopic properties of ceramics based on the PZT system. [Copyright &y& Elsevier]

Published

2013

24. The PZT system (PbTi x Zr1−x O3, 0≤x≤1.0): Dielectric response of solid solutions in broad temperature (10≤T≤1000K) and frequency (10−2≤f≤107 Hz) ranges (Part 4)

Author

Andryushina, I.N., Reznichenko, L.A., Shmytko, I.M., Shilkina, L.A., Andryushin, K.P., Yurasov, Yu.I., and Dudkina, S.I.

Subjects

*LEAD zirconate titanate, *DIELECTRICS, *SOLID solutions, *TEMPERATURE effect, *CERAMIC materials, *ELECTRIC fields

Abstract

Abstract: Solid solution (SS) ceramics of the PZT (PbTi x Zr1−x O3, 0≤x≤1.0) system were studied in broad temperature (10≤T≤1000K) and electric field frequency (10−2≤f≤107 Hz) ranges. Several groups of SS were distinguished, which differ by nonmonotonic behavior of dielectric parameters in the cryogenic temperature range and at Т>300K, which results both from the defective state and from the polymorphism of SS. A conclusion is made on the expediency of use of the obtained data during the application of materials based on the PZT system in the broad range of external actions. [Copyright &y& Elsevier]

Published

2013

25. The PZT system (PbZr1-xTixO3, 0.0≤x≤1.0): Specific features of recrystallization sintering and microstructures of solid solutions (Part 1)

Author

Andryushina, I.N., Reznichenko, L.A., Alyoshin, V.A., Shilkina, L.A., Titov, S.V., Titov, V.V., Andryushin, K.P., and Dudkina, S.I.

Subjects

*SOLID solutions, *SINTERING, *RECRYSTALLIZATION (Metallurgy), *PIEZOELECTRIC materials, *PHASE transitions, *MICROSTRUCTURE

Abstract

Abstract: This work is concerned with the specific features of sintering of solid solutions of the PZT system (PbZr1−x Ti x O3, 0.0≤x≤1.0) depending on composition. The microstructure of the solid-solution ceramics has been found to be a fairly homogeneous, mosaic, sufficiently close packing of isometric crystallites with a range of section from 3 to 11μm, but there exists a number of special features related to the component and phase composition of the objects. It has been found that the changes in multifractal parameters of grain structure of these ceramics reflect with high sensitivity the processes of phase transformations in the solid solutions. The obtained results are useful in developing piezoelectric materials based on the PZT system. [Copyright &y& Elsevier]

Published

2013