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Designing new piezoelectric materials
October 25, 2007Polymer-based piezoelectric materials are currently the object of great interest in the world of industry because they enable their use in new applications in sectors such as transport and aeronautics, amongst others.
A definition of piezoelectricity - piezo being Greek for "subjected to pressure" - is the generation of the electrical polarisation of a material as a response to mechanical strain. This phenomenon is known as direct effect or generator effect and is applied fundamentally in the manufacture of sensors (mobile phone vibrators, lighters, etc.). In these cases piezoelectric materials, also used in actuators, undergo an inverse or motor effect, i.e. a mechanical deformation due to the application of an electrical signal.
Over the last four decades perovskita-type ceramics (zirconium or lead titanate ceramics) have been mainly used as piezoelectric materials in acoustic applications, amongst other reasons because of their high elastic modularity, their high dielectric constant and their low dielectric and elastic losses. However, and although they have also been used successfully in many other applications, ceramic piezoelectric materials have some important drawbacks: limited deformation, fragility and a high mass density that limit their use in sectors such as aeronautics or electrical-electronics. These limitations can be overcome in specific applications using polymeric piezoelectric materials instead of ceramic ones.
The only piezoelectric polymer that currently exists on the market is Polyvinylidene Difluoride (PVDF). This semi-crystalline polymer is characterised by having very good piezoelectric properties, but only to 90 ºC. Thus the interest in synthesising new piezoelectric polymers capable of maintaining their properties at greater temperatures.
Patent applied for
At GAIKER-IK4 we have developed amorphous piezoelectric polymers to be employed in conditions of extreme temperature where semi-crystalline polymers cannot be used. To this end, and after prior work with different materials, the use of polymides was opted for, given their excellent thermal, mechanical and dielectric properties. Various dipolar groups (-CN, -SO2-, -CF3) have been incorporated into the molecule, varying the number and position of these groups in order to fix their physical - and consequently, their piezoelectric - properties. Moreover, it has been shown that the value for the temperature of vitreous transition is fundamental for these polymides, as this determines the temperature at which piezoelectric properties are lost. Specifically, this type of polymers show piezoelectric stability up to temperatures of 150ºC and do not begin to degrade until above 400 ºC.
We have been involved in this line of research at the Plastics and Composites Area for a number of years now and, particularly as a result of the research carried out jointly with the Department of Physical Chemistry at the University of the Basque Country (UPV/EHU), we have recently applied for a patent in the Oficina Española de Patentes y Marcas on "Polymides with piezoelectric properties".
GAIKER
The only piezoelectric polymer that currently exists on the market is Polyvinylidene Difluoride (PVDF). This semi-crystalline polymer is characterised by having very good piezoelectric properties, but only to 90 ºC. Thus the interest in synthesising new piezoelectric polymers capable of maintaining their properties at greater temperatures.
Patent applied for
At GAIKER-IK4 we have developed amorphous piezoelectric polymers to be employed in conditions of extreme temperature where semi-crystalline polymers cannot be used. To this end, and after prior work with different materials, the use of polymides was opted for, given their excellent thermal, mechanical and dielectric properties. Various dipolar groups (-CN, -SO2-, -CF3) have been incorporated into the molecule, varying the number and position of these groups in order to fix their physical - and consequently, their piezoelectric - properties. Moreover, it has been shown that the value for the temperature of vitreous transition is fundamental for these polymides, as this determines the temperature at which piezoelectric properties are lost. Specifically, this type of polymers show piezoelectric stability up to temperatures of 150ºC and do not begin to degrade until above 400 ºC.
We have been involved in this line of research at the Plastics and Composites Area for a number of years now and, particularly as a result of the research carried out jointly with the Department of Physical Chemistry at the University of the Basque Country (UPV/EHU), we have recently applied for a patent in the Oficina Española de Patentes y Marcas on "Polymides with piezoelectric properties".
GAIKER
Piezoelectric Materials Current Events and Piezoelectric Materials News RSSSelf-powered devices possible, says Texas A&M researcher
Imagine a self-powering cell phone that never needs to be charged because it converts sound waves produced by the user into the energy it needs to keep running. It's not as far-fetched as it may seem thanks to the recent work of Tahir Cagin, a professor in the Artie McFerrin Department of Chemical Engineering at Texas A&M University.
Visualizing atomic-scale acoustic wavesin nanostructures
Acoustic waves play many everyday roles - from communication between people to ultrasound imaging. Now the highest frequency acoustic waves in materials, with nearly atomic-scale wavelengths, promise to be useful probes of nanostructures such as LED lights.
Disorder enables extreme sensitivity in piezoelectric materials
A research team working at the National Institute of Standards and Technology (NIST) has found an explanation for the extreme sensitivity to mechanical pressure or voltage of a special class of solid materials called relaxors.
Smart aircraft wings and new lightweight construction materials
At the JEC Composites Show 2008 to be held in Paris from April 1 to 3, Fraunhofer researchers will be exhibiting an aircraft wing that immediately detects any material damage. Another showcased development is a novel fiber-composite material with a fiber content that can extend to 50 or 60 percent by volume.
Scientists fashion semiconductors into flexible membranes
University of Wisconsin-Madison researchers have demonstrated a way to release thin membranes of semiconductors from a substrate and transfer them to new surfaces-an advance that could unite the properties of silicon and many other materials, including diamond, metal and even plastic.
Varnish measures pressure and vibrations
Despite the use of computer simulation, wind tunnel testing is still required to measure pressure changes and airflow speeds on the surfaces of new aircraft and automobile prototypes. Such testing is now done less with smoke visualization and threads but more frequently with high-tech sensors which have the least influence on air flows. Film sensors made from piezoelectric materials provide one alternative. However, such films are difficult to apply - especially on rounded surfaces - and they do not adhere well under windy conditions. These disadvantages have been overcome with a varnish developed by the Fraunhofer Institute for Applied Polymer Research IAP.
3D Sound Systems Using Groundbreaking Piezoelectric Springs
Piezoelectric materials such as quartz are used in digital watches and computers to produce stable vibrations at high frequencies. Polycrystaline ceramics, such as PZT (lead zirconate titanate), can be made to mimic the behaviour of these natural monocrystaline materials by polarising the crystals within the ceramic. This is done by applying an electric field to the material at high temperature to align the microscopically small piezoelectric domains within the material. This produces a net polarisation in the direction of the electric field which, when a smaller electric field is later re-applied to the material, causes a strain in the direction of the polarisation. In traditional speakers,
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