posted on 2018-10-26, 00:00authored byMilan Shrestha, Zhenbo Lu, Gih-Keong Lau
Window glasses can
block noise from outdoor, but they reverberate sound within a large
indoor space. Microperforated glass absorbers have been developed
to absorb sound over a fixed but narrow bandwidth. To tune the frequency
spectrum of acoustic absorption, we developed a transparent tunable
acoustic absorber based on microperforated dielectric elastomer actuator
(MPDEA) and transparent compliant electrodes. Such transparent compliant
electrodes were inkjet printed from Triton X-plasticized poly(3,4-ethylenedioxythiophene):poly(styrene
sulfonate) ink, which shows improved wettability on the acrylate dielectric
elastomer substrate. These transparent polymeric electrodes are softer
with uptake of moisture while being self-clearable and durable. A
single layer of MPDEA using two inkjet-printed electrodes is 78.64%
clear, but the clarity of a two-layer MPDEA decreases to 61.8%. Among
the two designs, the two-layer MPDEA exhibits a broader acoustic absorption
bandwidth of 444 Hz for absorbing more than 80% of the sound energy.
Inactivated resonant frequency of this MPDEA is 1170 Hz, whereas the
6 kV activation can reduce the resonant frequency for 15.2% by causing
9% hole-diameter contraction. This transparent tunable acoustic absorber
can be fitted to window glass; its acoustic performance is better
than that of translucent curtains.