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Ferroelectrics Volume 186, 1996 - Issue 1
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Section III: Posters

Theoretical and experimental investigation of porous PZT ceramics

Igor Getman Endress+Hauser GmbH+Co, Hauptstraβe 1, D-79689, Maulburg, Germany
&
Sergey Lopatin Endress+Hauser GmbH+Co, Hauptstraβe 1, D-79689, Maulburg, Germany
Pages 301-304 | Received 03 Jan 1996, Published online: 07 Mar 2011

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A. V. Nasedkin, A. A. Nasedkina, M. E. Nassar & A. N. Rybyanets. (2021) Effective properties of piezoceramics with metal inclusions: numerical analysis. Ferroelectrics 575:1, pages 84-91.
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Andrey Nasedkin. (2014) Modeling of Magnetoelectric Composites by Effective Moduli and Finite Element Methods. Theoretical Approaches. Ferroelectrics 461:1, pages 106-112.
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Articles from other publishers (23)

Viktor Myroshnychenko, Pious Mathews Mulavarickal Jose, Henna Farheen, Shafaq Ejaz, Christian Brosseau & Jens Förstner. (2024) From Swiss-cheese to discrete ferroelectric composites: assessing the ferroelectric butterfly shape in polarization loops. Physica Scripta 99:4, pages 045952.
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Mohamed Elsayed Nassar, Nasser A. Saeed & Andrey Nasedkin. (2023) Determination of effective properties of porous piezoelectric composite with partially randomly metalized pore boundaries using finite element method. Applied Mathematical Modelling 124, pages 241-256.
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Rakesh Kumar Haldkar, Alexander V. Cherpakov, Ivan A. Parinov & Vladislav E. Yakovlev. (2022) Comprehensive Numerical Analysis of a Porous Piezoelectric Ceramic for Axial Load Energy Harvesting. Applied Sciences 12:19, pages 10047.
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Andrey Nasedkin & Mohamed Elsayed Nassar. (2021) About anomalous properties of porous piezoceramic materials with metalized or rigid surfaces of pores. Mechanics of Materials 162, pages 104040.
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Tutu Sebastian, Miriam Bach, Andreas Geiger, Tony Lusiola, Lucjan Kozielski & Frank Clemens. (2021) Investigation of Electromechanical Properties on 3-D Printed Piezoelectric Composite Scaffold Structures. Materials 14:20, pages 5927.
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Kamran A Khan, Hamad K Alarafati & Muhammad Ali Khan. (2021) Micromechanical modeling of architected piezoelectric foam with simplified boundary conditions for hydrophone applications. Journal of Intelligent Material Systems and Structures 32:15, pages 1700-1712.
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Andrey V. Nasedkin, Pavel A. Oganesyan & Arkady N. Soloviev. (2020) Analysis of Rosen type energy harvesting devices from porous piezoceramics with great longitudinal piezomodulus. ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik 101:3.
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Andrey V. Nasedkin. 2021. Mathematical Applications in Continuum and Structural Mechanics. Mathematical Applications in Continuum and Structural Mechanics 13 31 .
Andrey Nasedkin & Mohamed Elsayed Nassar. (2020) Effective properties of a porous inhomogeneously polarized by direction piezoceramic material with full metalized pore boundaries: Finite element analysis. Journal of Advanced Dielectrics 10:05, pages 2050018.
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Anna Kudimova & Andrey Nasedkin. (2019) Analysis of porosity influence on the effective moduli of ceramic matrix PZT composite using the simplified finite element model. Journal of Advanced Dielectrics 09:06, pages 1950043.
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Kamran A. Khan & Muhammad Ali Khan. (2019) 3-3 piezoelectric metamaterial with negative and zero Poisson’s ratio for hydrophones applications. Materials Research Bulletin 112, pages 194-204.
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T. E. Gerasimenko, N. V. Kurbatova, D. K. Nadolin, A. V. Nasedkin, A. A. Nasedkina, P. A. Oganesyan, A. S. Skaliukh & A. N. Soloviev. 2019. Wave Dynamics, Mechanics and Physics of Microstructured Metamaterials. Wave Dynamics, Mechanics and Physics of Microstructured Metamaterials 113 131 .
Yan Zhang, James Roscow, Rhodri Lewis, Hamideh Khanbareh, Vitaly Yu Topolov, Mengying Xie & Chris R. Bowen. (2018) Understanding the effect of porosity on the polarisation-field response of ferroelectric materials. Acta Materialia 154, pages 100-112.
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A. V. Nasedkin, A. A. Nasedkina & A. N. Rybyanets. (2018) Simulation and Finite Element Analysis of Porous Piezoceramic Disk-Shaped Transducer with Plano-Concave Surface. Russian Journal of Nondestructive Testing 54:6, pages 400-409.
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Anna Kudimova, Ivan Mikhayluts, Dmitryi Nadolin, Andrey Nasedkin, Anna Nasedkina, Pavel Oganesyan & Arcady Soloviev. (2017) Computer design of porous and ceramic piezocomposites in the finite element package ACELAN. Procedia Structural Integrity 6, pages 301-308.
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A. V. Nasedkin, J.-C. Liu, M. S. Shevtsova, S.-H. Chang & J.-K. Wu. (2014) Multiobjective optimization of an underwater acoustic projector with porous piezocomposite active element. Multiobjective optimization of an underwater acoustic projector with porous piezocomposite active element.
Andrey Nasedkin, Maria Shevtsova & Shun-Hsyung Chang. 2014. Advanced Materials. Advanced Materials 249 260 .
A. V. Nasedkin, M. S. Shevtsova, J.-C. Liu, S.-H. Chang & J.-K. Wu. (2013) Multiobjective Optimal Design of Underwater Acoustic Projector with Porous Piezocomposite Active Elements. Journal of Applied Mathematics and Physics 01:06, pages 89-94.
Crossref
Andrey N. Rybyanets. (2011) Porous piezoceramics: theory, technology, and properties. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 58:7, pages 1492-1507.
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G. Iovane & A.V. Nasedkin. (2010) Modal analysis of piezoelectric bodies with voids. II. Finite element simulation. Applied Mathematical Modelling 34:1, pages 47-59.
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A. Nasedkin, A. Rybjanets, L. Kushkuley, Y. Eshel & R. Tasker. (2005) Different approaches to finite element modeling of effective moduli of porous piezoceramics with 3-3 (3-0) connectivity. Different approaches to finite element modeling of effective moduli of porous piezoceramics with 3-3 (3-0) connectivity.
V. I. Aleshin, E. S. Tsikhotsky & V. K. Yatsenko. (2004) Prediction of the properties of two-phase composites with a piezoactive component. Technical Physics 49:1, pages 61-66.
Crossref
Stefan Geis, Jochen Fricke & Peer Löbmann. (2002) Electrical properties of PZT aerogels. Journal of the European Ceramic Society 22:7, pages 1155-1161.
Crossref

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