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Erschienen in:
The Piezoelectric Medium and Its Electromechanical Properties Kapitel lesen Erstes Kapitel lesen

2014 | OriginalPaper | Buchkapitel

3. Orientation Effects and Anisotropy of Properties in 2–2 and Related Composites

verfasst von : Vitaly Yu. Topolov, Paolo Bisegna, Christopher R. Bowen

Erschienen in: Piezo-Active Composites

Verlag: Springer Berlin Heidelberg

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Abstract

The 2–2 connectivity pattern of a composite [1–3] is a structure where there are two types of layers which are alternating in a certain direction.

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Vorheriges Kapitel Orientation Effects in Single-Domain Single Crystals
Nächstes Kapitel Orientation Effects and Anisotropy of Properties in 1–3 and Related Composites
Fußnoten
1
According to experimental data [33], this piezo-passive auxetic polymer is characterised by elastic compliances \(s_{11}^{(n)} = 5,260\) and \(s_{12}^{(n)} = 4,360\) (in \(10^{-12}\;\text {Pa}^{-1})\) and dielectric permittivity \(\varepsilon _{pp}^{(n)}/\varepsilon _{0}= 2.3\) at room temperature. We add that an effect of the auxetic polymer on the performance of the 1–3-type piezo-active composites is discussed in Sect. 4.​3.​4 where variations of the elastic properties of the auxetic polymer component are taken into account.
 
Literatur
1.
Newnham RE, Skinner DP, Cross LE (1978) Connectivity and piezoelectric-pyroelectric composites. Mater Res Bull 13:525–536CrossRef
2.
Topolov VYu, Bowen CR (2009) Electromechanical properties in composites based on ferroelectrics. Springer, London
3.
Safari A, Akdogan EK (2006) Rapid prototyping of novel piezoelectric composites. Ferroelectrics 331:153–179CrossRef
4.
Janas VF, Safari A (1995) Overview of fine-scale piezoelectric ceramic/polymer composite processing. J Am Ceram Soc 78:2945–2955CrossRef
5.
Akdogan EK, Allahverdi M, Safari A (2005) Piezoelectric composites for sensor and actuator applications. IEEE Trans Ultrason Ferroelectr Freq Control 52:746–775CrossRef
6.
Huebner W, Reidmeyer MR, Stevenson JW, Busse L (1995) Fabrication of 2–2 connectivity PZT / thermoplastic composites for high efficiency linear arrays. In: Pandey RK, Liu M, Safari A (eds) ISAF’94: Proceedings of the 9th IEEE International symposium on applications of ferroelectrics, University Park, Pennsylvania, 7–10 Aug 1994. IEEE, Piscataway, pp 206–209
7.
Zhang QM, Geng X (1994) Dynamic modeling of piezoceramic polymer composite with 2–2 connectivity. J Appl Phys 76:6014–6016CrossRef
8.
Getman IP, Ryabov AP, Ustinov YuA (1987) On possibilities of the averaging method in a task on propagation of waves in an electroelastic layer with a periodic thickness inhomogeneity. Izvestiya Akademii Nauk SSSR. Mekhanika Tverdogo Tela 3:118–124 (in Russian)
9.
Khoroshun LP, Maslov BP, Leshchenko PV (1989) Prediction of effective properties of piezo-active composite materials. Naukova Dumka, Kiev (in Russian)
10.
Cao W, Zhang QM, Cross LE (1993) Theoretical study on the static performance of piezoelectric ceramic-polymer composites with 2–2 connectivity. IEEE Trans Ultrason Ferroelectr Freq Control 40:103–109CrossRef
11.
Grekov AA, Kramarov SO, Kuprienko AA (1987) Anomalous behavior of the two-phase lamellar piezoelectric texture. Ferroelectrics 76:43–48CrossRef
12.
Hashimoto KY, Yamaguchi M (1986) Elastic, piezoelectric and dielectric properties of composite materials. In: Proceedings of IEEE Ultrasonic Symposium, 17–19 Nov 1986. Williamsburg, New York, pp 697–702
13.
Turcu S, Jadidian B, Danforth SC, Safari A (2002) Piezoelectric properties of novel oriented ceramic-polymer composites with 2–2 and 3–3 connectivity. J Electroceram 9:165–171CrossRef
14.
Levassort F, Lethiecq M, Millar C, Pourcelot L (1998) Modeling of highly loaded 0–3 piezoelectric composites using a matrix method. IEEE Trans Ultrason Ferroelectr Freq Control 45:1497–1505CrossRef
15.
Gibiansky LV, Torquato S (1997) On the use of homogenization theory to design optimal piezocomposites for hydrophone applications. J Mech Phys Solids 45:689–708CrossRef
16.
Grekov AA, Kramarov SO, Kuprienko AA (1989) Effective properties of a transversely isotropic piezoelectric composite with cylindrical inclusions. Mech Compos Mater Struct 25:54–61CrossRef
17.
Turik AV, Topolov VYu (1997) Ferroelectric ceramics with a large piezoelectric anisotropy. J Phys D Appl Phys 30:1541–1549CrossRef
18.
Zhang R, Jiang B, Cao W (2003) Single-domain properties of 0.67Pb\((\text{ Mg }_{1/3}\text{ Nb }_{2/3})\rm {O}_{3}-0.33\text{ PbTiO }_{3}\) single crystals under electric field bias. Appl Phys Lett 82:787–789CrossRef
19.
Zhang R, Jiang B, Cao W (2003) Orientation dependence of piezoelectric properties of single domain 0.67Pb\((\text{ Mn }_{1/3}\text{ Nb }_{2/3}){\rm O}_{3}-0.33\text{ PbTiO }_{3}\) crystals. Appl Phys Lett 82:3737–3739CrossRef
20.
Noheda B (2002) Structure and high-piezoelectricity in lead oxide solid solutions. Curr Opin Solid State Mater Sci 6:27–34CrossRef
21.
Topolov VYu (2004) The remarkable orientation and concentration dependences of the electromechanical properties of 0.67Pb\((\text{ Mg }_{1/3}\text{ Nb }_{2/3}){\rm O}_{3}-0.33\text{ PbTiO }_{3}\) single crystals. J Phys Condens Matter 16:2115–2128CrossRef
22.
Liu G, Jiang W, Zhu J, Cao W (2011) Electromechanical properties and anisotropy of single- and multi-domain 0.72Pb\((\text{ Mg }_{1/3}\text{ Nb }_{2/3}){\rm O}_{3}-0.33\text{ PbTiO }_{3}\) single crystals. Appl Phys Lett 99:162901–3P
23.
Zhang R, Jiang B, Jiang W, Cao W (2006) Complete set of elastic, dielectric, and piezoelectric coefficents of 0.93Pb\((\text{ Zn }_{1/3}\text{ Nb }_{2/3}){\rm O}_{3}-0.33\text{ PbTiO }_{3}\) single crystal poled along [011]. Appl Phys Lett 89:242908 (3 pp.)
24.
Sessler GM (1981) Piezoelectricity in polyvinylidenefluoride. J Acoust Soc Am 70:1596–1608CrossRef
25.
Kar-Gupta R, Venkatesh TA (2007) Electromechanical response of 1–3 piezoelectric composites: an analytical model. Acta Mater 55:1093–1108CrossRef
26.
Topolov VYu, Krivoruchko AV (2009) Polarization orientation effect and combination of electromechanical properties in advanced 0.67Pb\((\text{ Mg }_{1/3}\text{ Nb }_{2/3}){\rm O}_{3}-0.33\text{ PbTiO }_{3}\) single crystal/polymer composites with 2–2 connectivity. Smart Mater Struct 18:065011 (11 pp.)
27.
Newnham RE (1994) Nonmechanical properties of composites. In: Kelly A, Cahn RW, Bever MB (eds) Concise encyclopedia of composite materials. Elsevier, Oxford, pp 214–220
28.
Berlincourt DA, Cerran DR, Jaffe H (1964) Piezoelectric and piezomagnetic materials and their function in transducers. In: Mason W (ed) Physical acoustics. Principles and methods. Methods and devices, vol 1. Pt A. Academic Press, New York, London, pp 169–270
29.
Topolov VYu, Krivoruchko AV, Bowen CR, Panich AA (2010) Hydrostatic piezoelectric coefficients of the 2–2 composite based on [011]-poled 0.71Pb\((\text{ Mg }_{1/3}\text{ Nb }_{2/3}){\rm O}_{3}-0.33\text{ PbTiO }_{3}\)single crystals. Ferroelectrics 400:410–416CrossRef
30.
Krivoruchko AV, Topolov VYu (2007) On the remarkable performance of novel 2–2-type composites based on [011] poled 0.93Pb\((\text{ Zn }_{1/3}\text{ Nb }_{2/3}){\rm O}_{3}-0.33\text{ PbTiO }_{3}\) single crystals. J Phys D Appl Phys 40:7113–7120CrossRef
31.
Topolov VYu, Krivoruchko AV (2009) Orientation effects in 2–2 piezocomposites based on \((1 -x){\rm Pb}({\rm {A}_{1/3}}{\rm {Nb}_{2/3})}{\rm O}_{3}-{x}\text{ PbTiO }_{3}\) single crystals (A = Mg or Zn). J Appl Phys 105:074105 (7 pp.)
32.
Topolov VYu, Glushanin SV (2002) Evolution of connectivity patterns and links between interfaces and piezoelectric properties of two-component composites. J Phys D Appl Phys 35:2008–2014CrossRef
33.
Evans KE, Alderson KL (1992) The static and dynamic moduli of auxetic microporous polyethylene. J Mater Sci Lett 11:1721–1724CrossRef
34.
Sun E, Cao W, Jiang W, Han P (2011) Complete set of material properties of single domain 0.24Pb\((\text{ In }_{1/2}\rm {Nb}_{1/2}){\rm O}_{3}\)-0.49Pb\((\text{ Mg }_{1/3}\text{ Nb }_{2/3}){\rm O}_{3}-0.33\text{ PbTiO }_{3}\) single crystal and the orientation effects. Appl Phys Lett 99:032901 (3 pp.)
35.
Zhang S, Liu G, Jiang W, Luo J, Cao W, Shrout TR (2011) Characterization of single domain Pb\((\rm {In}_{0.5}\rm {Nb}_{0.5})\rm {O}_{3}\)-Pb\((\text{ Mg }_{1/3}\text{ Nb }_{2/3}){\rm O}_{3}-0.33\text{ PbTiO }_{3}\) crystals with monoclinic phase. J Appl Phys 110:064108 (5 pp.)
36.
Topolov VYu, Krivoruchko AV, Bowen CR (2012) Anisotropy of electromechanical properties and hydrostatic response of advanced 2–2-type composites. Phys Status Solidi A 209:1334–1342CrossRef
37.
Dunn M (1995) Effects of grain shape anisotropy, porosity, and microcracks on the elastic and dielectric constants of polycrystalline piezoelectric ceramics. J Appl Phys 78:1533–1541CrossRef
38.
Dunn ML, Taya M (1993) Electromechanical properties of porous piezoelectric ceramics. J Am Ceram Soc 76:1697–1706CrossRef
Metadaten
Titel
Orientation Effects and Anisotropy of Properties in 2–2 and Related Composites
verfasst von
Vitaly Yu. Topolov
Paolo Bisegna
Christopher R. Bowen
Copyright-Jahr
2014
Verlag
Springer Berlin Heidelberg
Buch
Piezo-Active Composites

Print ISBN: 978-3-642-38353-3

Electronic ISBN: 978-3-642-38354-0

Copyright-Jahr: 2014

DOI
https://doi.org/10.1007/978-3-642-38354-0_3

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