Researchers at Concordia have developed a novel method of 3D printing that uses acoustic holograms. And they say it's quicker than existing methods and capable of making more complex objects.
It’s a thing that can focus intense ultrasound on a specific, programmable region. Really intense ultrasound can create bubbles that get very hot as they shrink and expand, and apparently you can use this to initiate polymerisation. Put the two together, and you can make a 3D printer.
Desirability is due to the fact that it’s faster than printing with a single moving focus point, and sound can travel through things light or a physical printhead cannot, like a living person during surgery. Whether it actually pans out depends on all kinds of practical implementation details, but they make strong-sounding claims in the abstract of the paper.
Could I trouble someone to give an ELI5 for this?
I don’t understand any of it so I’m curious what makes it so desirable.
It’s a thing that can focus intense ultrasound on a specific, programmable region. Really intense ultrasound can create bubbles that get very hot as they shrink and expand, and apparently you can use this to initiate polymerisation. Put the two together, and you can make a 3D printer.
Desirability is due to the fact that it’s faster than printing with a single moving focus point, and sound can travel through things light or a physical printhead cannot, like a living person during surgery. Whether it actually pans out depends on all kinds of practical implementation details, but they make strong-sounding claims in the abstract of the paper.