Within the SmartPIE project, piezoelectric polymer composite sensors were developed. These sensors show extreme temperature stability up to 100ºC. The use of piezoelectric composite materials allows for manufacturing robust devices which can easily be integrated with conventional polymer processing. Piezoelectric composites of lead zirconate titanate (PZT) and two types of polymers, polyamide-6 (PA6) and a liquid crystalline thermosetting polymer (LCT) were used to manufacture sensor devices. The behavior of the output signal of different types of sensors was studied with focus on both temperature dependence of the output signal and the drift of the signal with time. The properties of the PA6 based composites and devices are highly temperature dependent while the output signal of LCT based composites and devices has a very low temperature dependence and drift, even outperforming the PZT reference device. The temperature dependence of the output signal of the composite devices is dependent on the device configuration as well as the material properties, such as polymer permittivity. The drift of the signal is strongly dependent on the resistivity of the PZT–polymer composite material used in the sensor. The results were published inthe journal Sensors and Actuators A.
|10-12-2010 14.00||Previous item | Next item|
|»||ITO ATB310: LOW POWER TOUCH CONTROLLER|
|»||SmartPIE researchers improve piezoelectric composite properties|
|»||Improving Piezoelectric properties of PZT-Polymer composites|
|»||Ferroelectric devices created by pressure modulated stencil deposition|
|»||Journal of materials Science Volume 42 #15|