Electroresponsive Polymers and Their Applications: Volume 889Vivek Bharti Increasing research and development efforts have been dedicated to the field of electroresponsive polymers (ERPs), including the development of materials and devices. In addition to their exceptional physical properties and low manufacturing costs, these materials also show remarkable charge storage and electrical properties. One particular class of these materials is the electroactive polymer (EAP), or artificial muscle - a new type of smart material with a broad range of potential applications such as electromechanical devices, energy storage devices, artificial muscles, air filtration, insulation, etc. This book shows research and commercial advances in the field and highlights the significant industry involvement: 3M is implementing piezomaterials in stethoscopes; Measurement Specialties Inc. highlights a range products employing PVDF sensors and EMFIT Ltd. presents ferroelectrets, in which microporous polymers show a piezoelectric coefficient at the level of ~300 pC/N. Additional topics include: sensors and their applications; polymer actuators and their applications; and polymer dielectrics and charge storage applications. |
From inside the book
Results 1-3 of 72
Page 25
... shows a comparison of different piezoelectric materials in descending order of stiffness . Quartz is the stiffest piezoelectric material , and shows only small values for d1 , and gil . Albeit the small piezoelectric coefficients ...
... shows a comparison of different piezoelectric materials in descending order of stiffness . Quartz is the stiffest piezoelectric material , and shows only small values for d1 , and gil . Albeit the small piezoelectric coefficients ...
Page 115
... shows the modulus variation beside the CV diagram and active strain obtained at 1mV / s stimulation rate . The plot of strain also shows the value of passive strain relative to active strain . The modulus plot was smoothed by moving ...
... shows the modulus variation beside the CV diagram and active strain obtained at 1mV / s stimulation rate . The plot of strain also shows the value of passive strain relative to active strain . The modulus plot was smoothed by moving ...
Page 124
... shows cation - driven behavior and the portion doped with PMAS shows anion - driven behavior . It is interesting , to note that the PMAS displays the anion - driven characteristics . The resultant phenomena may be complicated . However ...
... shows cation - driven behavior and the portion doped with PMAS shows anion - driven behavior . It is interesting , to note that the PMAS displays the anion - driven characteristics . The resultant phenomena may be complicated . However ...
Contents
Lesserknown Piezoelectric and Pyroelectric Applications | 3 |
Electronic Acoustic Sensor | 15 |
Piezoelectric Polymers | 23 |
Copyright | |
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Common terms and phrases
2006 Materials Research actuators anode Appl applications applied voltage azopolymers BZ reaction C/m³ Charge density p(x Chem circuits coefficients composite conducting polymer copolymer crystalline crystallization decrease devices diaphragm dielectric constant effect elastic modulus electrets electric field electroactive polymers electrode electromechanical electrospinning electrostrictive Emfit EMI-Tf energy density energy harvesting experimental ferroelectric ferroelectric polymers fibers frequency gate dielectrics increase injection interface ionic liquid IPMC irradiated samples ISBN layer LDPE LEB-PANI Materials Research Society measured mechanical membranes method micro-dots modulus Nafion observed OFETs organic semiconductors OTFT P(VDF-CTFE P(VDF-TrFE parameters Peak phase Phys piezoelectric polarization polyaniline polymeric polypyrrole Proc properties PVDF pyroelectric response sensitivity sensor shown in Figure shows simulation SiO2 solution solvent space charge strain stress structure substrate surface Symp terpolymer thermal thickness thin film transducers uptake Volume Zhang