Although traditionally a With a wealth of analog skills and long-established craftsmanship, today’s luxury watch industry has created great potential for dedicating high-tech innovations from sectors that have no connection to the watch world.
The high potential energy of carbon fiber – first realized in 1963 at the Royal Aircraft Establishment, a British Army-owned research center for use in jet engines – is now routinely employed in high-performance clocks. Deep reactive-ion etching, made for micro-electromechanical systems (MEMS), is now also used to make silicone watch components that have been converted to make watches for their anti-magnetic properties.
TAG Heuer, based on a process first developed at the University of Utah, is trying to extend carbon nanotube hairsprings, a tiny spiral in the center of a mechanical clock that drives the escape oscillation, which in itself, with each oscillation, allows a tooth. “Escape” from the driving wheel and move the watch forward. They are considered less brittle than their silicon counterparts; These are similarly anti-magnetic but have good shock resistance and are easy to assemble for watch makers.
The titanium-ceramic compounds found in today’s watches were made for dental and military use. Panerai’s carbotech component was originally made for brake pads.
And there’s more to the list. Originally, virtually no new material used for watches was actually made for watches. Watch brands are very good at finding new things and incorporating it into their case.
Still, although new materials, fabricated techniques and engineering processes have become autonomous and flew faster and faster than the aviation sector preferences, eye surgery may seem to be a less likely source of technical inspiration.
However, Rolex has become a laser technique used this year to remove cataracts for the industrialization of unique, flawless decor for its dials. The latest version of its classic self-winding datejust model — a timepiece first created in 1945 to celebrate the company’s 40th anniversary, where tropical palm fronds hold their way across a green sunburst dial where the face is light and dark in the middle. Edge in semi-abstract fashion — uses this process.
The palm of the hand is engraved on this sunburst dial base using femtosecond laser technology, which was first created for surgical purposes in the early 1990’s.
During cataract surgery, ultra-short laser pulses (one millionth of a billionth of a femtosecond) are used to cut the surface of the eye with precise geometry, allowing the cataract material to be cleared. Accuracy could not be achieved by a surgeon’s hand.