This sound-suppressing silk can create quiet spaces
This sound-suppressing silk can create quiet spaces
MIT researchers developed a silk fabric, which is barely thicker than a human hair, that can suppress unwanted noise and reduce noise transmission in a large room.
news.mit.edu
In one, the vibrating fabric generates sound waves that interfere with an unwanted noise to cancel it out, similar to noise-canceling headphones, which work well in a small space like your ears but do not work in large enclosures like rooms or planes.
In the other, more surprising technique, the fabric is held still to suppress vibrations that are key to the transmission of sound. This prevents noise from being transmitted through the fabric and quiets the volume beyond. This second approach allows for noise reduction in much larger spaces like rooms or cars.
By using common materials like silk, canvas, and muslin, the researchers created noise-suppressing fabrics which would be practical to implement in real-world spaces. For instance, one could use such a fabric to make dividers in open workspaces or thin fabric walls that prevent sound from getting through................................
I will be looking into this topic when I have the chance, in the context of loudspeaker design. I'm interested in if the fabric is in tension, how it is supported/suspended and how the actual shape affects things. I suppose knowing where the electronic contacts are positioned, how many and if there is grounding could be relevant as well.The sound-suppressing silk builds off the group’s prior work to create fabric microphones.
In that research, they sewed a single strand of piezoelectric fiber into fabric. Piezoelectric materials produce an electrical signal when squeezed or bent. When a nearby noise causes the fabric to vibrate, the piezoelectric fiber converts those vibrations into an electrical signal, which can capture the sound.
In the new work, the researchers flipped that idea to create a fabric loudspeaker that can be used to cancel out soundwaves.