Following are the Rolex womens watches [นาฬิกา rolex ผู้หญิง, which is the term in Thai] introduced in between 1953-1956:
1953
PIONEERING WATCHES
In the early 1950s, Rolex developed professional watches that served as tools as well as whose functions went far past simply telling the moment. These watches were meant for professional activities, such as deep-sea aeronautics, diving, mountaineering, as well as clinical exploration. The watches produced enduring excitement as well as called the watches of up-and-comers.
1953
EVEREST
In 1953, Sir John Search’s expedition, in which Sir Edmund Hillary, as well as Tenzing Norgay, reached the top of Mount Everest, was geared up with Oyster Perpetuals.
1953
THE EXPLORER
Inspired by expertise obtained from this fascinating phase of the human journey, the Oyster Perpetual Explorer, launched in 1953 to commemorate the successful ascent of Everest, immediately acquired legendary status.
1953
THE SUBMARINER
Introduced in 1953, the Submariner was the first divers’ watch waterproof to a depth of 100 meters, or 330 feet. Its rotatable bezel permits scuba divers to read their immersion time.
1956
MANAGEMENT
Rolex watches have long been related to those who have, with time, assisted the fate of the world. Regardless of their vision, their domain name of quality, or their accomplishments, the one point these phenomenal men and women have in common is commonly their watch: the Day-Date.
1956
CERN
The globe’s pre-eminent particle physics laboratory goes to the reducing side of a clinical study into the basic secrets of deep space. It hosts the world’s highest-energy fragment accelerator. In the 1950s, CERN was amongst the first scientific establishments to validate that the Milgauss watch might undoubtedly stand up to magnetic fields of approximately 1,000 gausses.
1956
THE OYSTER PERPETUAL MILGAUSS
The Milgauss, introduced in 1956, was developed to fulfill the demands of the scientific community and is capable of standing up to electromagnetic fields of as much as 1,000 gausses. The major advancement at the heart of Milgauss’ amazing resistance to magnetic disturbances is the shield protecting the movement.
Made of ferromagnetic alloys selected by Rolex, it includes two elements, one screwed to the activity and the other to the Oyster situation. After rigorous testing by CERN designers, it gained an online reputation as the ideal magnetic guard.