Smartphones
have come a long way in a few short years, but two things have remained
constant; most sport a "slab of glass" form factor, and dropping one
makes you wish you’d had it insured.
Designers have used new materials, such as Gorilla glass and sapphire to make phone displays lighter and more durable, but these have introduced their own problems – especially when it comes to manufacturing. Gizmag spoke with Raydiance, a company specializing in cutting-edge laser fabrication methods, about its new R-Cut femtosecond laser system that promises a “new paradigm" in high-tech glass fabrication.
According to Raydiance, the R-Cut combines an ultra-short pulse laser and micromachining processes to cut very hard and brittle materials very quickly and with less chance of their chiping or shattering. It’s based on afemtosecond laser, which is generated by a technique called chirped pulse amplification that produces a burst of laser light that lasts one quadrillionth of a second. This is so short that during its pulse, the laser will only travel 1/100th the width of a human hair.
Designers have used new materials, such as Gorilla glass and sapphire to make phone displays lighter and more durable, but these have introduced their own problems – especially when it comes to manufacturing. Gizmag spoke with Raydiance, a company specializing in cutting-edge laser fabrication methods, about its new R-Cut femtosecond laser system that promises a “new paradigm" in high-tech glass fabrication.
According to Raydiance, the R-Cut combines an ultra-short pulse laser and micromachining processes to cut very hard and brittle materials very quickly and with less chance of their chiping or shattering. It’s based on afemtosecond laser, which is generated by a technique called chirped pulse amplification that produces a burst of laser light that lasts one quadrillionth of a second. This is so short that during its pulse, the laser will only travel 1/100th the width of a human hair.
What’s important about this laser is that these very tiny pulses of
light can concentrate so much power in such a small space of time that
they can destroy anything they touch, and the laser can fire these
pulses many times a second. The R-Cut uses these pulses in "cold
ablation" for drilling very precise holes or shaping materials. The
femtosecond laser vaporizes matter so fast that the surrounding
materials have no time to heat up and there’s much less of a shock wave
than with longer-duration lasers. The trick is to apply enough power in a
short enough time to remove material without stressing the surrounding
area.
Michael Mielke, Chief Scientist at Raydiance told Gizmag that the
company has used fiber optics and developed algorithms that allow the
R-Cut to take the femtosecond laser from being a laboratory curiosity
and make it into an industrial tool that can quickly cut brittle
materials in a matter of seconds instead of minutes or hours.
Aimed at high-volume manufacturers, the R-Cut can handle Gorilla glass,
sapphire crystals, and similar hard and brittle materials. It can work
on thinner materials than previously possible and form them into complex
shapes, such as curves,
chamfers, and holes on a micron scale, with less waste and at lower
costs providing savings of more than 50 percent. The company also says
that it can work on both strengthened and unstrengthened glass while
doubling efficiency.
"The laser is fully programmable, which eliminates a lot of the
hard-tooling with the mechanical approaches," says Stefan Zschiegner,
Senior Vice President of Marketing at Raydiance. "You can basically take
a design drawing and in 24 hours you have a fully functioning
prototype."
Zschiegner went on to say that the R-Cut represents a new paradigm that
will allow manufacturers to rethink their production methods. He sees
the laser technique as a way to allow for mobile phones of more organic
shapes, the use of microholes replacing the conventional slots used for
microphones and speakers in phones for better sound quality, and glass
covers for phones with a more rounded shape instead of flat, which could
also be applied to car dashboard instruments.
According to Zschiegner the R-Cut technology will be moving into the manufacturing arena within the next year.
Source: Raydiance
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