Orthopedic titanium alloys have the advantages of high strength, light weight, and good biocompatibility
1. High strength
Orthopedic titanium alloys have excellent mechanical properties, especially high strength. Its strength is 25% higher than ordinary steel and 50% higher than aluminum alloy. This means that titanium Alloys in Orthopaedics can be made of thinner materials to make stronger medical devices and implants, reducing the burden of surgery and reducing surgical risks.
2. Lightweight
Orthopedic titanium alloy is a lightweight alloy, about 40% lighter than steel and about 30% lighter than aluminum alloy. Therefore, titanium Alloys in Orthopaedics can reduce the load on implants and reduce pressure on bones and joints. This is especially important for patients who need long-term implant support.
3. Good biocompatibility
Orthopedic titanium alloys have excellent biocompatibility, which can effectively avoid problems such as rejection and infection caused by material incompatibility. Titanium alloys have stable chemical properties and will not react with human cells and tissues. In addition, a titanium oxide film will form on its surface, which can further enhance its biocompatibility.
4. Good corrosion resistance
Orthopedic titanium alloys can maintain their mechanical properties unchanged under high temperature, high pressure, and strong corrosive environments, and will not rust, deform, or corrode. Therefore, titanium Alloys in Orthopaedics can maintain long-term durability and stability in surgical operations.
5. Good formability
Orthopedic titanium alloys have good formability and can be processed into implants and instruments of various shapes by a variety of methods. Because this material can be precisely prepared, it can be customized according to the specific needs of the patient, improving the success rate of surgery.
Conclusion
In short, titanium Alloys in Orthopaedics offer numerous advantages, including high strength, lightweight properties, good biocompatibility, and other beneficial characteristics. This excellent material has been widely used in the field of orthopedics, which can bring better surgical results and quality of life to patients.
