This Rolex Is Made Using Surgical Laser Lasers

Even traditionally a an architectural and technical center that has been established for a long time, modern watchmaking companies have developed a state-of-the-art technology for creating technologies from groups that have nothing to do with the observer world.

High carbon fiber – which occurred in 1963 Establishment of Royal Aircraft, a British military-owned research facility, for use in jet engines — is now frequently used in high-end watches. It was ion-ion etching, developed for micro-electromechanical systems (MEMS), is now also used in the manufacture of silicon clocks that have evolved into anti-magnetic clocks (metal clocks with continuous moving parts are resistant to magnets).

TAG Heuer, developing a method that was first developed at the University of Utah, is trying to grow carbon nanotube hairs, tiny lines in the center of a mechanical clock that rotates the flight, which, in turn, rotates, allowing one tooth of the “escape” wheel to extend the hands of the clock. They should be lighter than their silicon counterparts; they are also anti-magnet but have better resistance to vibration and are easier to assemble for a watchmaker.

The titanium-ceramic product found in modern watches was made for dental and military use. Panerai and Carbotech the equipment was designed for brake pads.

And the list goes on. In fact, everything new on the watch is not designed to be mechanical. Viewers are very good at looking at new things and incorporating them into their field.

However, even with new tools, techniques, and technological advances moving faster and faster from the automotive and aviation sectors, eye surgery can still be seen as a lesser source of expertise.

However, Rolex this year has turned to the laser technique used to remove cataracts in its quest to create a unique, flawless cosmetics industry for its music. The most recent type of self-driving Datejust The clock – the first watch in 1945 to celebrate the company’s 40th anniversary, in which the hot palm leaves pass through a green cloud of sun with its face light in the middle and black at the edges of the unsightly shape – uses this. process.

Palm trees are nailed to the sunburst floor using a stick Femtosecond laser technology, which was first developed for surgery in the early 1990’s.

During cataract surgery, ultra-short laser pulses (femtoseconds are one billionth of a second) are used to cut with the correct geometry above the eye, allowing the cataract to be removed by the type of accuracy that the doctor’s hand could not achieve.

Photo: Rolex

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