Rolex Manufacturing Process And Achievements

 In 1956, Rolex successfully developed a watch capable of resisting interference of 1,000 Gauss (that is, 0.1 Tesla, or 80,000 A/m), making its excellent timing performance successfully overcome the influence of magnetic fields for the first time. Half a century has passed, and Rolex's achievements in anti-interference are still continuing. The magnetic shielding design inside the Oyster case is the first line of defense. The European Organization for Nuclear Research (CERN) is the world’s most outstanding particle physics laboratory. It is at the forefront of scientific research to explore the mysteries of the universe and possesses the world’s highest energy particle accelerator; it was also in the 1950s that this A physics laboratory confirmed for the first time that the Rolex Milgauss model watch is sufficient to withstand the influence of a 1,000 Gauss magnetic field.

The strap and buckle design fully embodies the fun of wearing Rolex watches. The in-depth study of ergonomics has outstanding performance in Robustness and reliability. The curve and luster of each strap carries the characteristics and functions of the watch, and it is filled with Rolex's polishing of the details: whether it is a polished or satin surface, a safety clasp or a concealed clasp, the length can be adjusted to stick. A strap that fits the curvature of the wrist is an endless pursuit of comfort, elegance and reliability. Find best discount replica Rolex watches, super clone watches at Watchesbuyoff.ru.

Rolex has developed Cerachrom ceramic bezels for some specific models and applied for patents to ensure that they can maintain their beauty and function in extreme environments. Made of extremely strong ceramic material, the Cerachrom ceramic bezel hardly produces scratches, and its color is not affected by ultraviolet rays. This unique ceramic material is made of zirconia or alumina powder and was introduced in 2005 to replace aluminum inlaid frames that are prone to fading and scratching.

Thanks to the Oyster Perpetual Case, Rolex has demonstrated an unparalleled advantage in the field of water resistance-water depth of 3,900 meters (12,800 feet). The Ringlock system of the Rolex Deepsea watch can withstand the huge water pressure at a depth of 3,900 meters, and the domed mirror made of sapphire crystal can carry a pressure equivalent to 3 tons. The Ringlock system consists of three basic components: a 5.5 mm thick mirror, a screw-in triple lock triple waterproof system winding crown, and a back cover made of Oystersteel and a titanium alloy with a strength of 5.

In 1996, Rolex applied for a patent for its Easylink system. The wearer can easily adjust the length of the watch through Easylink for a more comfortable wearing experience. This design is cleverly hidden under the buckle, and the strap can be extended or shortened by about 5 mm through a link. Although this concept is derived from the diving function, in areas where the temperature is prone to rapid changes, this practical function allows the wearer to adjust according to the rapid expansion and contraction of the strap.

The Helium Escape Valve is used in watches such as "Sea Envoy" Sea-Dweller and Deepsea. In 1967, Rolex applied for a patent for the helium escape valve. This exquisite design can discharge the excessive pressure in the watch case while the diver is decompressing in the hyperbaric oxygen chamber without affecting the water resistance of the watch itself. Since the invention of Saturation Diving in the 1960s, this innovative design has played a vital role in deep and shallow motion: during the ascent of the diver's work, the watch mirror wearing the watch often bursts due to excessive internal pressure. The helium escape valve is a good way to avoid this problem.