Far greater voltage-actuated deformation is achievable for a dielectric elastomer under equal-biaxial dead load than under rigid constraint usually employed. Areal strains of 488% are demonstrated. The dead load suppresses electric breakdown, enabling the elastomer to survive the snap-through electromechanical instability. The breakdown voltage is found to increase with the voltage ramp rate. A nonlinear model for viscoelastic dielectric elastomers is developed and shown to be consistent with the experimental observations.
Published Online:
http://apl.aip.org/resource/1/applab/v100/i4/p041911_s1?isAuthorized=no&ver=pdfcov
Appl. Phys. Lett. 100, 041911 (2012)
Hi Jiangshui can u
Hi Jiangshui
can u please send me copy of ur paper
@
mokarram.hossain [at] ltm.uni-erlangen.de
best regards
mokarram
In reply to Hi Jiangshui can u by mokarram76
Hi Mokarram, Thanks for
Hi Mokarram,
Thanks for your interest. I have sent the paper to your email address.
Sincerely,
Jiangshui