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Integrated Ferroelectrics
An International Journal
Volume 63, 2004 - Issue 1
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Original Articles

Lead Titanate and Lead Metaniobate Porous Ferroelectric Ceramics

A. N. RYBJANETS Rostov State University, Stachky Av. 194, Rostov on Don, Russia, 344090
,
O. N. RAZUMOVSKAJA Rostov State University, Stachky Av. 194, Rostov on Don, Russia, 344090
,
L. A. REZNITCHENKO Rostov State University, Stachky Av. 194, Rostov on Don, Russia, 344090
,
V. D. KOMAROV Rostov State University, Stachky Av. 194, Rostov on Don, Russia, 344090
&
A. V. TURIK Rostov State University, Stachky Av. 194, Rostov on Don, Russia, 344090
Pages 197-200 | Received 01 Aug 2003, Accepted 01 Jan 2004, Published online: 11 Aug 2010

Citations (26)

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Read on this site (7)

A. N. Rybyanets, D. I. Makarev & N. A. Shvetsova. (2019) Recent advances in porous piezoceramics applications. Ferroelectrics 539:1, pages 101-111.
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D. I. Makarev, M. A. Lugovaya & A. N. Rybyanets. (2019) Influence of low-dimensional conductive components on the properties of digital piezomaterials of the “piezoceramic-polymer-metal” system. Ferroelectrics 539:1, pages 79-83.
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Fengmin Wu, Min Gao, Zhengkui Wang, Xunjun He, Bin Yang & Jiuxing Jiang. (2017) Synthesis and properties of Pb0.92Sr0.08(Nb1-yTay)2O6 high Curie temperature piezoelectric ceramics. Integrated Ferroelectrics 181:1, pages 90-95.
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AndreyN. Rybyanets. (2011) Porous Piezoelectric Ceramics—A Historical Overview. Ferroelectrics 419:1, pages 90-96.
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A.N. Rybianets. (2007) New “Damped by Scattering” Ceramic Piezocomposites with Extremally Low QMValues. Ferroelectrics 360:1, pages 84-89.
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A.N. Rybianets & A.V. Nasedkin. (2007) Complete Characterization of Porous Piezoelectric Ceramics Properties Including Losses and Dispersion. Ferroelectrics 360:1, pages 57-62.
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SidneyB. Lang. (2006) Guide to the Literature of Piezoelectricity and Pyroelectricity. 26. Ferroelectrics 332:1, pages 227-321.
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Articles from other publishers (19)

Yiming Liu, Wenqian Yan, Ya Zhong, Zhanwu Wu, Sisi Shang, Xiaodong Wu, Xiaodong Shen & Sheng Cui. (2022) Synthesis and characterization of amino-grafted attapulgite/graphene oxide nanocomposites and their adsorption for Pb(II) removal. Journal of Nanoparticle Research 24:2.
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Ali Abjadi, Mohsen Jabbari & Ahmad Reza Khorshidvand. (2021) Axisymmetric Thermal Stresses of a Piezoelectric Poroelastic Circular Solid Plate. Journal of Pressure Vessel Technology 143:5.
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M. A. Lugovaya, I. A. Shvetsov, N. A. Shvetsova, E. I. Petrova & A. N. Rybyanets. (2018) Microstructural Features and Electrophysical Characteristics of Ceramic–Crystal Matrix Composites. Bulletin of the Russian Academy of Sciences: Physics 82:3, pages 310-313.
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E. I. Petrova, M. A. Lugovaya, I. A. Shvetsov, N. A. Shvetsova, A. N. Reznichenko & A. N. Rybyanets. 2018. Advanced Materials. Advanced Materials 49 63 .
I. A. Shvetsov, E. I. Petrova, M. A. Lugovaya, N. A. Shvetsova, S. A. Shcherbinin & A. N. Rybyanets. 2018. Advanced Materials. Advanced Materials 33 47 .
M. Jabbari, M. Meshkini & M. R. Eslami. (2016) Mechanical and Thermal Stresses in FGPPM Hollow Cylinder Due to Radially Symmetric Loads. Journal of Pressure Vessel Technology 138:1.
Crossref
A. N. Rybyanets. 2016. Advanced Materials. Advanced Materials 211 228 .
D. I. Makarev, A. N. Rybyanets & G. M. Mayak. (2015) The possibility of creating digital piezomaterials based on piezoceramic-polymer mixed composites. Technical Physics Letters 41:4, pages 317-319.
Crossref
Shujun Zhang, Fei Li, Xiaoning Jiang, Jinwook Kim, Jun Luo & Xuecang Geng. (2015) Advantages and challenges of relaxor-PbTiO3 ferroelectric crystals for electroacoustic transducers – A review. Progress in Materials Science 68, pages 1-66.
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Andrey N. Rybyanets & Anastasia A. Naumenko. (2013) Nanoparticles Transport in Ceramic Matriсes: A Novel Approach for Ceramic Matrix Composites Fabrication. Journal of Modern Physics 04:08, pages 1041-1049.
Crossref
M. Jabbari, M. Meshkini & M. R. Eslami. (2012) Nonaxisymmetric Mechanical and Thermal Stresses in FGPPM Hollow Cylinder. Journal of Pressure Vessel Technology 134:6.
Crossref
A. N. Rybyanets & A. A. Rybyanets. (2011) Ceramic piezocomposites: Modeling, technology, and characterization. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control 58:9, pages 1757-1773.
Crossref
Andrey N. Rybyanets. (2011) Porous piezoceramics: theory, technology, and properties. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 58:7, pages 1492-1507.
Crossref
A. N. Rybjanets. (2010) Properties of PZT/PZT ceramic piezocomposites. Bulletin of the Russian Academy of Sciences: Physics 74:8, pages 1100-1103.
Crossref
Andrey N. Rybyanets, Tamara V. Domashenkina & Anastasia A. Rybyanets. (2010) Complex material constants for PZT/PZT ceramic composites. Complex material constants for PZT/PZT ceramic composites.
Andrey N. Rybyanets. (2010) Novel approach for fabrication of ceramic matrix piezocomposites. Novel approach for fabrication of ceramic matrix piezocomposites.
Andrey Ryby, Andrey Nasedkin, Tamara Domashenkina, Anastasia Rybyanets & Maria Lugovaya. (2009) Ceramic piezocomposites modeling and fabrication. Ceramic piezocomposites modeling and fabrication.
A. Rybianets, L. Kushkuley & Y. Eshel. (2006) P2O-4 New Low-Q Ceramic Piezocomposites for Ultrasonic Transducer Applications. P2O-4 New Low-Q Ceramic Piezocomposites for Ultrasonic Transducer Applications.
A. Rybianets, L. Kushkuley, Y. Eshel & A. Nasedkin. (2006) P1M-5 Accurate Evaluation of Complex Material Constants of Porous Piezoelectric Ceramics. P1M-5 Accurate Evaluation of Complex Material Constants of Porous Piezoelectric Ceramics.

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