Citations (67)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (15)
Anam Afzal, Ayesha Kausar & Muhammad Siddiq. (2016) Technical Relevance of Polymer/Cement/Carbon Nanotube Composite: Opportunities and Challenges. Polymer-Plastics Technology and Engineering 55:16, pages 1743-1764.
Read now
Read now
Ki
Hwan Baek, Seong
Kwang Hong, Se
Bin Kim, Jeong
Hun Kim & Tae
Hyun Sung. (2013) Study of Charging Efficiency of a Piezoelectric Energy Harvesting System Using Rectifier and Array Configuration. Ferroelectrics 449:1, pages 42-51.
Read now
Read now
R.W. C. Lewis, A.C. Dent & C.R. Bowen. (2007) Network Modelling of 3-3 Piezocomposite Materials. Ferroelectrics 351:1, pages 216-224.
Read now
Read now
Sien
Ting Lau, Kin
Wing Kwok, Helen
Lai Wah Chan & Chung
Loong Choy. (2001) PT/P(VDF-TrFE) nanocomposites for ultrasonic hydrophone applications. Ferroelectrics 263:1, pages 205-210.
Read now
Read now
Philippe Guillaussier, Christian Audoly & Didier Boucher. (1996) Porous lead zirconate titanate ceramics for hydrophones. Ferroelectrics 187:1, pages 121-128.
Read now
Read now
S. Sherrit, H.D. Wiederick, B.K. Mukherjee & S.E. Prasad. (1992) PcC3. 0–3 Piezoelectric - glass composites. Ferroelectrics 134:1, pages 65-69.
Read now
Read now
S. Sherrit, H.D. Wiederick, B.K. Mukherjee & S.E. Prasad. (1992) Stress isolation PZT-Air composites. Ferroelectrics 132:1, pages 61-68.
Read now
Read now
C. Madhavan, T.T. Srinivasan, Q.C. Xu, R.E. Newnham, T.R. Gururaja & Paul Meyer. (1990) Properties of fired 0–3 piezoelectric materials for biomedical ultrasonic imaging applications. Ferroelectrics 102:1, pages 235-242.
Read now
Read now
K.A. Hanner, A. Safari, R.E. Newnham & J. Runt. (1989) Thin film 0–3 polymer/piezoelectric ceramic composites: Piezoelectric paints. Ferroelectrics 100:1, pages 255-260.
Read now
Read now
Wallace
Arden Smith & AvnerA. Shaulov. (1988) Composite piezoelectrics: Basic research to a practical device. Ferroelectrics 87:1, pages 309-320.
Read now
Read now
J. R. Giniewicz, R. E. Newnham, A. Safari & Dawne Moffatt. (1987) (Pb, Bi)(Ti, Fe, Mn)O3/Polymer 0-3 composites for hydrophone applications. Ferroelectrics 73:1, pages 405-417.
Read now
Read now
G. Sa-Gong, A. Safari, S.J. Jang & R.E. Newnham. (1986) Poling flexible piezoelectric composites. Ferroelectrics Letters Section 5:5, pages 131-142.
Read now
Read now
D.L. Monroe, J.B. Blum & A. Safari. (1986) Sol-gel derived PbTio3-polymer piezoelectric composites . Ferroelectrics Letters Section 5:2-3, pages 39-46.
Read now
Read now
W. Wersing, K. Lubitz & J. Mohaupt. (1986) Dielectric, elastic and piezoelectric properties of porous pzt ceramics. Ferroelectrics 68:1, pages 77-97.
Read now
Read now
J. Runt, A. Safari, E.C. Galgoci & R.E. Newnham. (1985) The influence of interfacial adhesion on the piezoelectric response of electroceramic/polymer composites. Ferroelectrics Letters Section 5:1, pages 15-20.
Read now
Read now
Articles from other publishers (52)
Rytis Mitkus, Lena Piechowiak & Michael Sinapius. (2023) Characterization of UV Light Curable Piezoelectric 0-0-3 Composites Filled with Lead-Free Ceramics and Conductive Nanoparticles. Journal of Composites Science 7:2, pages 89.
Crossref
Crossref
Jiahao Jiang, Shuaimin Chen, Chunlin Zhao, Cong Lin, Xiao Wu, Min Gao, Tengfei Lin & Changqing Fang. (2022)
Composition segregation and grain growth in (K
0.5
Na
0.5
)NbO
3
piezoceramics prepared by two‐step cold sintering process
. Journal of the American Ceramic Society 106:2, pages 913-922.
Crossref
Crossref
Saptarshi Karmakar, Raj Kiran, Rahul Vaish, Vishal Singh Chauhan, Samia Ben Ahmed, Imed Boukhris, Wonseop Hwang, Tae Hyun Sung & Anuruddh Kumar. (2022) Comparative Study of the Effective Properties of 0–3 and Gyroid Triply Periodic Minimal Surface Cement‐Piezocomposites. Global Challenges 7:2, pages 2200122.
Crossref
Crossref
Xiao-Gang Chen, Yuan-Yuan Tang, Hui-Peng Lv, Xian-Jiang Song, Hang Peng, Hang Yu, Wei-Qiang Liao, Yu-Meng You & Ren-Gen Xiong. (2023) Remarkable Enhancement of Piezoelectric Performance by Heavy Halogen Substitution in Hybrid Perovskite Ferroelectrics. Journal of the American Chemical Society 145:3, pages 1936-1944.
Crossref
Crossref
Han-Yue Zhang, Xiao-Gang Chen, Yuan-Yuan Tang, Wei-Qiang Liao, Fang-Fang Di, Xin Mu, Hang Peng & Ren-Gen Xiong. (2021) PFM (piezoresponse force microscopy)-aided design for molecular ferroelectrics. Chemical Society Reviews 50:14, pages 8248-8278.
Crossref
Crossref
Weijian Ding, Yuqing Liu, Tomoki Shiotani, Quan Wang, Ningxu Han & Feng Xing. (2021) Cement-Based Piezoelectric Ceramic Composites for Sensing Elements: A Comprehensive State-of-the-Art Review. Sensors 21:9, pages 3230.
Crossref
Crossref
Han-Yue Zhang, Zhi-Xu Zhang, Xiao-Gang Chen, Xian-Jiang Song, Yi Zhang & Ren-Gen Xiong. (2021) Large Electrostrictive Coefficient in a Two-Dimensional Hybrid Perovskite Ferroelectric. Journal of the American Chemical Society 143:3, pages 1664-1672.
Crossref
Crossref
Xiao-Gang Chen, Xian-Jiang Song, Zhi-Xu Zhang, Peng-Fei Li, Jia-Zhen Ge, Yuan-Yuan Tang, Ji-Xing Gao, Wan-Ying Zhang, Da-Wei Fu, Yu-Meng You & Ren-Gen Xiong. (2019) Two-Dimensional Layered Perovskite Ferroelectric with Giant Piezoelectric Voltage Coefficient. Journal of the American Chemical Society 142:2, pages 1077-1082.
Crossref
Crossref
Sami ullah Rather. 2020. Bionanocomposites. Bionanocomposites
519
534
.
Ziping Wang, Yangchun Ye, Zhujie Bao & Hao Ge. (2019) Optimization and simulation analysis of structure parameters of OPCM ultrasonic longitudinal wave actuating element. Science and Engineering of Composite Materials 26:1, pages 175-182.
Crossref
Crossref
Mengying Xie, Yan Zhang, Marcin J. Kraśny, Chris Bowen, Hamideh Khanbareh & Nicholas Gathercole. (2018) Flexible and active self-powered pressure, shear sensors based on freeze casting ceramic–polymer composites. Energy & Environmental Science 11:10, pages 2919-2927.
Crossref
Crossref
M. S. Vijaya. 2016. Piezoelectric Materials and Devices. Piezoelectric Materials and Devices
30
53
.
Anjana Jain, Prashanth K. J., Asheesh Kr. Sharma, Arpit Jain & Rashmi P.N. (2015) Dielectric and piezoelectric properties of PVDF/PZT composites: A review. Polymer Engineering & Science 55:7, pages 1589-1616.
Crossref
Crossref
Muhammad Saleem Mirza, Tariq Yasin, Masroor Ikram, Shakir Khan & Muhammad Nasir Khan. (2015) Dielectric and piezoelectric properties of piezoceramic/polymer 1–3 composites fabricated by a modified align-and-fill technique. Materials Chemistry and Physics 149-150, pages 670-677.
Crossref
Crossref
Lili Li, Shujun Zhang, Zhuo Xu, Xuecang Geng, Fei Wen, Jun Luo & Thomas R. Shrout. (2014)
Hydrostatic piezoelectric properties of [011] poled Pb(Mg
1/3
Nb
2/3
)O
3
-PbTiO
3
single crystals and 2-2 lamellar composites
. Applied Physics Letters 104:3, pages 032909.
Crossref
Crossref
Jun Kang, Peng Sheng Xie, Yuan Li, Jia Lin Zhu & Li Li. (2014) Development of Acoustic Emission Sensor Based on the 0-3 PZT/P(VDF-TFE) Piezoelectric Composite. Applied Mechanics and Materials 487, pages 58-62.
Crossref
Crossref
Huaishi Ren & Huiqing Fan. (2006) The role of piezoelectric rods in 1–3 composite for the hydrostatic response applications. Sensors and Actuators A: Physical 128:1, pages 132-139.
Crossref
Crossref
F. Elaldi. (2005) An overview for structural health monitoring of composites in aerospace applications. An overview for structural health monitoring of composites in aerospace applications.
Ping Tan & Liyong Tong. (2002) Investigation of loading assumptions on the effective electroelastic constants for PFRC materials. Composite Structures 57:1-4, pages 101-108.
Crossref
Crossref
Xiang-Dong Chen, Da-Ben Yang, Ya-Dong Jiang, Zhi-Ming Wu, Dan Li, Fu-Jun Gou & Jia-De Yang. (1998) 0–3 Piezoelectric composite film with high d33 coefficient. Sensors and Actuators A: Physical 65:2-3, pages 194-196.
Crossref
Crossref
Reinaldo Rodriquez Ramos, Jose A. Otero Hernandez, Julian Bravo Castillero & Federico J. Sabina. (1996) Electromechanical properties of laminated piezoelectric composites. Mechanics of Composite Materials 32:3, pages 286-291.
Crossref
Crossref
R.P. Tandon. (1995) Materials in biomedical engineering: potential and issues. Materials in biomedical engineering: potential and issues.
R.P. Tandon, V. Singh, N. Narayana Swami & V.K. Hans. (1995) Fabrication, properties and design considerations of piezocomposite transducers for ultrasonic imaging. Fabrication, properties and design considerations of piezocomposite transducers for ultrasonic imaging.
Edward F. Crawley. (1994) Intelligent structures for aerospace - A technology overview and assessment. AIAA Journal 32:8, pages 1689-1699.
Crossref
Crossref
Marco Avellaneda & Girish Harshé. (2016) Magnetoelectric Effect in Piezoelectric/Magnetostrictive Multilayer (2-2) Composites. Journal of Intelligent Material Systems and Structures 5:4, pages 501-513.
Crossref
Crossref
Byoung-Chul Shin. (1994) Computation of hydrostatic piezoelectric coefficients for 1–3 composites by the finite-element method. Sensors and Actuators A: Physical 40:3, pages 191-194.
Crossref
Crossref
R. Sharma, I. P. Singh, A. K. Tripathi & P. K. C. Pillai. (2004) Charge-field hysteresis of BaTiO3: PVDF composites. Journal of Materials Science 29:4, pages 995-998.
Crossref
Crossref
K. Saeki, A. Tesigahara, Y. Ohtsuka, A. Umeda & T. Hattori. (1994) Evaluation of dynamic displacement characteristics of a piezoelectric composite using a laser interferometer. Evaluation of dynamic displacement characteristics of a piezoelectric composite using a laser interferometer.
W.A. Smith. (1993) Modeling 1-3 composite piezoelectrics: hydrostatic response. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control 40:1, pages 41-49.
Crossref
Crossref
W Manthey, N Kroemer & V Magori. (1992) Ultrasonic transducers and transducer arrays for applications in air. Measurement Science and Technology 3:3, pages 249-261.
Crossref
Crossref
R. Hamilton & G. Hayward. (1992) The design of low volume fraction 1-3 connectivity composite transducers using finite element modelling techniques. The design of low volume fraction 1-3 connectivity composite transducers using finite element modelling techniques.
R. P. Tandon, Ramadhar Singh, Ved Singh, N. H. Swami & V. K. Hans. (1992) Ferroelectric properties of lead titanate/polymer composite and its application in hydrophones. Journal of Materials Science Letters 11:12, pages 883-885.
Crossref
Crossref
W.A. Smith & B.A. Auld. (1991) Modeling 1-3 composite piezoelectrics: thickness-mode oscillations. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control 38:1, pages 40-47.
Crossref
Crossref
Yuhuan Xu. 1991. Ferroelectric Materials and their Applications. Ferroelectric Materials and their Applications
329
362
.
R. P. Tandon. 1991. Frontiers of Polymer Research. Frontiers of Polymer Research
437
441
.
Hyeung-Gyu Lee & Ho-Gi Kim. (1990) Ceramic particle size dependence of dielectric and piezoelectric properties of piezoelectric ceramic-polymer composites. Journal of Applied Physics 67:4, pages 2024-2028.
Crossref
Crossref
H. Janusson, C.E. Millar & S.J. Milne. (2011) Sol-Gel Synthesis of Lead Titanate Fibres for Use in the Fabrication of Piezoceramic-Polymer Composites. MRS Proceedings 180.
Crossref
Crossref
S.L. Swartz. (1990) Topics in electronic ceramics. IEEE Transactions on Electrical Insulation 25:5, pages 935-987.
Crossref
Crossref
Hyeung Gyu Lee & Ho Gi Kim. (2005) Influence of Microstructure on the Dielectric and Piezoelectric Properties of Lead Zirconate‐Polymer Composites. Journal of the American Ceramic Society 72:6, pages 938-942.
Crossref
Crossref
P.D. Richardson. (1989) Piezoelectric polymers. IEEE Engineering in Medicine and Biology Magazine 8:2, pages 14-16.
Crossref
Crossref
W.A. Smith. (1989) The role of piezocomposites in ultrasonic transducers. The role of piezocomposites in ultrasonic transducers.
T. Matsunaka, Y. Tabuchi, C. Kasai, K. Tachikawa, H. Kyono & H. Ikeda. (1988) Porous piezoelectric ceramic transducer for medical ultrasonic applications. Porous piezoelectric ceramic transducer for medical ultrasonic applications.
C. Madhavan, T.R. Gururaja, T.T. Srinivasan, Q.C. Xu & R.E. Newnam. (1987) Fired 0-3 Piezoelectric Composite Materials for Biomedical Ultrasonic Imaging Applications. Fired 0-3 Piezoelectric Composite Materials for Biomedical Ultrasonic Imaging Applications.
J.R. Giniewicz, K. Duscha, R.E. Newnham & A. Safari. (1986) (Pb<inf>1-x</inf>, Bi<inf>x</inf>) (Ti<inf>1-x</inf>(Fe<inf>1-y</inf>Mn<inf>y</inf>)<inf>x</inf>)O<inf>3</inf>- Polymer 0-3 Composites for Hydrophone Applications. (Pb<inf>1-x</inf>, Bi<inf>x</inf>) (Ti<inf>1-x</inf>(Fe<inf>1-y</inf>Mn<inf>y</inf>)<inf>x</inf>)O<inf>3</inf>- Polymer 0-3 Composites for Hydrophone Applications.
Y.H. Lee, M.J. Ham, A. Safari & R.E. Newnham. (1986) Preparation of PbTiO<inf>3</inf>Powder for a Flexible 0-3 Piezoelectric Composite. Preparation of PbTiO<inf>3</inf>Powder for a Flexible 0-3 Piezoelectric Composite.
A. Safari, T.R. Gururaja, C. Hakun, A. Halliyal & R.E. Newnham. (1986) 0-3 Pieoelectric Ceramic-Polymer Composites Prepared by a New Method: Fired Composites. 0-3 Pieoelectric Ceramic-Polymer Composites Prepared by a New Method: Fired Composites.
K.A. Klein, A. Safari, R.E. Newnham & J. Runt. (1986) Composite Piezoelectric Paints. Composite Piezoelectric Paints.
C. Sa-Gong, A. Safari & R.E. Newnham. (1986) Poling Study of PbTiO<inf>3</inf>-Polymer Composites. Poling Study of PbTiO<inf>3</inf>-Polymer Composites.
W.A. Smith. (1986) Composite Piezoelectric Materials for Medical Ultrasonic Imaging Transducers -- A Review. Composite Piezoelectric Materials for Medical Ultrasonic Imaging Transducers -- A Review.
Zhuang Yong-Qiu & Xu Qi-Chang. (1986) The Broadband Sandwich Composite (3-3) Transducer. The Broadband Sandwich Composite (3-3) Transducer.
A. Safari, G. Sa-gong, J. Giniewicz & R. E. Newnham. 1986. Tailoring Multiphase and Composite Ceramics. Tailoring Multiphase and Composite Ceramics
445
454
.
W.A. Smith, A.A. Shaulov & B.M. Singer. (1984) Properties of Composite Piezoelectric Materials for Ultrasonic Transducers. Properties of Composite Piezoelectric Materials for Ultrasonic Transducers.