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Ferroelectrics Letters Section Volume 36, 2009 - Issue 3-4
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Original Articles

Ferroelectric Hysteresis Behavior in 0-3 PZT-Cement Composites: Effects of Frequency and Electric Field

A. CHAIPANICH Department of Physics and Materials Science, Faculty of Science, Chiang Mai University, Chiang Mai, 50200, Thailand
,
N. JAITANONG Department of Physics and Materials Science, Faculty of Science, Chiang Mai University, Chiang Mai, 50200, Thailand
&
R. YIMNIRUN School of Physics, Institute of Science, Suranaree University of Technology, Nakhon Ratchasima, Thailand
Pages 59-66 | Received 06 Mar 2009, Published online: 22 Sep 2009

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Amit Kumar, Vishal S. Chauhan, Rajeev Kumar & Kamal Prasad. (2018) Electromagnetic radiation detection in 0-3 cement-PZT composite under impact loading. Integrated Ferroelectrics 192:1, pages 67-79.
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Anam Afzal, Ayesha Kausar & Muhammad Siddiq. (2016) A Review on Polymer/Cement Composite with Carbon Nanofiller and Inorganic Filler. Polymer-Plastics Technology and Engineering 55:12, pages 1299-1323.
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A. Chaipanich, H.R. Zeng, G.R. Li, Q.R. Yin, R. Yimnirun & N. Jaitanong. (2016) Piezoelectric Force Microscope Investigation and Ferroelectric Hysteresis Behavior of High Volume Piezoelectric Ceramic in 0–3 Lead Zirconate Titanate-Cement Composites. Ferroelectrics 492:1, pages 54-58.
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Arnon Chaipanich, Rattiyakorn Rianyoi, Ruamporn Potong, Nittaya Jaitanong & Prinya Chindaprasirt. (2013) Compressive Strength and Microstructure of 0–3 Lead Zirconate Titanate Ceramic-Portland Cement Composites. Ferroelectrics 457:1, pages 53-61.
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N. Jaitanong, H.R. Zeng, G.R. Li, Q.R. Yin, R. Yimnirun & A. Chaipanich. (2013) Investigations on Morphology and Domain Configurations in 0–3 Lead Magnesium Niobate Titanate–Portland Cement Composites by SEM and PFM. Ferroelectrics 455:1, pages 111-116.
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A. Chaipanich, R. Rianyoi, R. Potong, W. Suriya, N. Jaitanong & P. Chindaprasirt. (2012) Dielectric Properties of 2–2 PMN-PT/Cement Composites. Ferroelectrics Letters Section 39:4-6, pages 76-80.
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R. Potong, R. Rianyoi, A. Ngamjarurojana & A. Chaipanich. (2012) Ferroelectric Hysteresis Properties of 0–3 Lead-Free Barium Zirconate Titanate-Portland Cement Composites. Ferroelectrics Letters Section 39:1-3, pages 15-19.
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R. Potong, R. Rianyoi & A. Chaipanich. (2011) Dielectric Properties of Lead-Free Composites from 0-3 Barium Zirconate Titanate-Portland Cement Composites. Ferroelectrics Letters Section 38:1-3, pages 18-23.
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N. Jaitanong, R. Yimnirun & A. Chaipanich. (2011) Effect of Compressive Stress on the Ferroelectric Hysteresis Behavior in 0-3 PMN-PT/Cement Composites. Ferroelectrics Letters Section 38:1-3, pages 11-17.
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A. Chaipanich, R. Rianyoi, R. Potong & N. Jaitanong. (2010) Effect of Temperature on the Dielectric Properties of 0-3 PZT-Cement Composites. Ferroelectrics Letters Section 37:4, pages 76-81.
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R. Rianyoi, R. Potong, N. Jaitanong, R. Yimnirun & A. Chaipanich. (2010) Fabrication and Electrical Properties of Lead Zirconate Titanate-Cement-Epoxy Composites. Ferroelectrics 405:1, pages 154-160.
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N. Jaitanong, W.C. Vittayakorn, R. Yimnirun & A. Chaipanich. (2010) Ferroelectric Hysteresis Behavior of 0–3 PMNT-Cement Composites. Ferroelectrics 405:1, pages 105-110.
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Aleksandr F. Vakulenko, Anton Yu. Molokov, Ekaterina Yu. Koroleva, Alexey V. Deyneka & Sergey B. Vakhrushev. (2023) Coercive Field Values and Shape Features of FE Loops in PMN-20PT at Low Temperatures. Coercive Field Values and Shape Features of FE Loops in PMN-20PT at Low Temperatures.
Cheng Yang, Shiping Song, Fang Chen & Ning Chen. (2021) Fabrication of PVDF/BaTiO 3 /CNT Piezoelectric Energy Harvesters with Bionic Balsa Wood Structures through 3D Printing and Supercritical Carbon Dioxide Foaming . ACS Applied Materials & Interfaces 13:35, pages 41723-41734.
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Shiping Song, Yijun Li, Qi Wang & Chuhong Zhang. (2021) Boosting piezoelectric performance with a new selective laser sintering 3D printable PVDF/graphene nanocomposite. Composites Part A: Applied Science and Manufacturing 147, pages 106452.
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Satyanarayan Patel. (2020) Pyroelectric figures of merit and energy harvesting potential in ferroelectric cement composites. Journal of Materials Science: Materials in Electronics 31:19, pages 16708-16719.
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Manoj Kumar, Gyaneshwar Sharma, Arun Kumar Singh & Sanjeev Kumar. (2020) Strongly enhanced polarization and dielectric breakdown strength of PZT95/5 by doping of Ce4+ and Nb5+. Journal of Materials Science: Materials in Electronics 31:16, pages 13104-13110.
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Manoj Kumar, Rajwant Rai, Naveen Kumar, Gyaneshwar Sharma, Arun Kumar Singh & Sanjeev Kumar. (2019) Crystal structure correlation of ferroelectric and dielectric properties of Nb doped PZT95/5. Journal of Materials Science: Materials in Electronics 30:5, pages 5014-5020.
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Fangwei Qi, Ning Chen & Qi Wang. (2018) Dielectric and piezoelectric properties in selective laser sintered polyamide11/BaTiO 3 /CNT ternary nanocomposites. Materials & Design 143, pages 72-80.
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K. S. Srikanth, Satyanarayan Patel & Rahul Vaish. (2018) Functional Cementitious Composites for Pyroelectric Applications. Journal of Electronic Materials 47:4, pages 2378-2385.
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Hui Tang, Hongcheng Li, Suet To, Kai-Ming Yu, Yunbo He, Jian Gao, Xin Chen & Jiedong Li. (2017) Design and control of a new 3-PUU fast tool servo for complex microstructure machining. The International Journal of Advanced Manufacturing Technology 94:9-12, pages 3503-3517.
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Saquib Ahmed, Sankha Banerjee, Udhay Sundar, Hector Ruiz, Sanjeev Kumar & Ajith Weerasinghe. 2017. Smart Polymer Nanocomposites. Smart Polymer Nanocomposites 1 42 .
Y. Mohan & A. Arockiarajan. (2016) Experimental and theoretical investigation of temperature-dependent electrical fatigue studies on 1-3 type piezocomposites. AIP Advances 6:3.
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Mohammad Khajelakzay & Ehsan Taheri-Nassaj. (2014) Crystallization kinetics and growth mechanism of Pb(Zr0.52?Ti0.48)O3 nanopowders. Applied Physics A 116:1, pages 179-183.
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Mohammad Khajelakzay & Ehsan Taheri-Nassaj. (2014) Fabrication and dielectric properties of Pb(Zr0.52Ti0.48)O3 nanofibers-cement composites. Electronic Materials Letters 10:1, pages 117-120.
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R. Potong, R. Rianyoi, N. Jaitanong, R. Yimnirun & A. Chaipanich. (2012) Ferroelectric hysteresis behavior and dielectric properties of 1–3 lead zirconate titanate–cement composites. Ceramics International 38, pages S267-S270.
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R. Rianyoi, R. Potong, N. Jaitanong, R. Yimnirun & A. Chaipanich. (2011) Dielectric, ferroelectric and piezoelectric properties of 0-3 barium titanate–Portland cement composites. Applied Physics A 104:2, pages 661-666.
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A. Chaipanich, N. Jaitanong & R. Yimnirun. (2011) Effect of carbon addition on the ferroelectric hysteresis properties of lead zirconate–titanate ceramic–cement composites. Ceramics International 37:4, pages 1181-1184.
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R. Rianyoi, R. Potong, N. Jaitanong, R. Yimnirun, A. Ngamjarurojana & A. Chaipanich. (2011) Dielectric and ferroelectric properties of 1-3 barium titanate?Portland cement composites. Current Applied Physics 11:3, pages S48-S51.
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N. Jaitanong, H.R. Zeng, G.R. Li, Q.R. Yin, W.C. Vittayakorn, R. Yimnirun & A. Chaipanich. (2010) Interfacial morphology and domain configurations in 0-3 PZT–Portland cement composites. Applied Surface Science 256:10, pages 3245-3248.
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