This Rolex Is Made Using Eye-Surgery Lasers


Although traditional a repository for analog skills and long-established craftsmanship, the luxury watch industry is now developing competent capacity to source high-tech innovations from sectors that have no connection to the watch world though what.

The high energy potential of carbon fiber was realized in 1963’s Royal Aircraft Establishment, a research facility owned by the British Army, for the use of jet engines — now frequently used in high-end watches. Deep reactive-ion etching, designed for micro-electromechanical systems (MEMS), are now again used to make silicon watch parts that have transformed watchmaking thanks to their anti-magnetic properties (metal watches with continuous moving parts that are understood to hate magnets).

TAG Heuer, which built a process first developed at the University of Utah, is trying to grow carbon nanotube hairsprings, small spirals in the heart of a mechanical watch that propel the escape oscillations, which in itself, with each oscillation, allow a tooth of the driving wheel to “escape” and advance on the hands of the watch. They are supposedly less fragile than their silicon counterparts; they are both anti-magnetic but have better shock resistance and are easy to assemble for the watchmaker.

The titanium-ceramic compounds found in today’s watch cases are designed for dental and military use. by Panerai Carbotech The material is actually made for the brake pads.

And the list goes on. Basically, almost any new material used in watch cases is not, in fact, made for watches. Watch brands are very good at looking at new things and engaging them in their field.

However, as new materials, manufacturing techniques, and engineering processes are rapidly and rapidly flying in from the likes of the automotive and aviation sectors, eye surgery may seem to be of little origin. inspired by technology.

However, Rolex this year returned to a laser technique used to remove cataracts in its quest to industrialize the creation of unique, useless decorations for its dials. The latest version of his classic self-winding Datejust model — a timepiece first made in 1945 to celebrate the company’s 40th anniversary, in which tropical palm fronds pass through a green sunburst dial where the surface is lighter in the middle and darker in the edge in a semi-abstract way — use it. process.

The palms are engraved on this sunburst dial base tool femtosecond laser technology, first developed for surgical purposes in the early 1990s.

During cataract surgery, ultra-short laser pulses (a femtosecond to a millionth part to a billionth part of a second) are used to cut the exact geometry to the surface of the eye, which allows the cataract material to be obtained in the kind of precision that cannot be reached by the surgeon’s hand.

Photo: Rolex



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