Vitallium: reliable and durable alloy for medical devices
Vitallium is the trade name for an alloy consisting of chromium and cobalt, which is widely used in medicine for the manufacture of various artificial limbs, medical instruments, surgical devices and dentures. This alloy was developed in 1932 by the American company Bechtold Dental Research Laboratories and has since become one of the most popular materials for medical devices.
One of the main reasons for the widespread use of Vitallium is its high strength and durability. This alloy has high corrosion resistance and is not subject to deformation under the influence of temperature changes. In addition, it is biocompatible, meaning that it does not cause allergic reactions and is not toxic to the body.
Prostheses made from Vitallium have a high precision of fit and good adaptation to body tissues. They help restore the function of damaged or missing body parts, providing patients with comfort and an improved quality of life. In addition, Vitallium is used to make dentures, which are highly durable and long lasting.
Vitallium alloy is widely used throughout the world in medical institutions of various levels. It is one of the most reliable and durable materials for medical devices and prostheses. Thanks to its unique properties, Vitallium allows patients to restore health and quality of life, and medical professionals to ensure high precision and reliability in their work.
Vitallium is the trade name of an alloy of chromium and cobalt, which is widely used in medicine. This material is used to make a variety of medical instruments, prosthetics, surgical devices and dentures.
The history of the development of Vitallium began at the beginning of the 20th century, when the American surgeon Charles Horton began research to create a material that could replace natural tooth enamel and bone. He used chromium and cobalt because they had the stability and strength needed to create medical devices.
Vitallium was introduced to the market in 1932, and since then it has become one of the most popular materials for medical devices. This is due to its unique properties such as high strength, corrosion resistance and biocompatibility.
Vitallium is widely used for the manufacture of dentures. It has high strength and resistance to corrosion, which ensures the durability and reliability of dentures. Vitallium dentures have a natural color and shape, which makes them invisible to others.
In addition, Vitallium is used to make surgical instruments and devices. These products must be sterile and highly durable to ensure patient safety and the effectiveness of surgical procedures. Vitallium has high corrosion resistance, which allows these instruments to be reused many times after sterilization.
In conclusion, Vitallium is a unique material that has wide application in medicine. Its strength, corrosion resistance and biocompatibility make it indispensable for the manufacture of medical devices, including dentures and surgical instruments. Due to its unique properties, Vitallium will continue to be one of the most popular materials for medical applications in the near future.
Vitellum is one of the most widely used materials in dentistry. Vitallium, an alloy of chromium, nickel and molybdenum produced by the pharmaceutical company Vita Specials, allows the creation of gold alloys intended for prosthetics and dental instruments. When it comes to dental prosthetics, a layer of vitallom-01 (a layer of about 9 microns thick on an alloy) is used, covering the lower edge of the crown and designed to protect the tooth from below. The presence of a small amount of chrome plating is also produced to create lighter and whiter gold alloys (vital). It is quite resistant to corrosion and wear, is a biologically inert material, and does not cause allergic reactions in both the patient and the dentist. Good compatibility with chromium alloys, as well as simplification of the procedure for applying a layer to the prosthesis, is another important aspect of this material.
Vitallium is in some ways even better than gold,