Properties of Medical Titanium Alloy Bars

Biocompatibility
Titanium is renowned for its biocompatibility, making it an ideal choice for medical applications. 12mm titanium alloy bars integrate seamlessly with the human body, minimizing adverse reactions. Their oxide layer promotes osseointegration, ensuring that bone cells attach effectively to the implant for enhanced stability and longevity.

Corrosion Resistance
Exposed to bodily fluids, medical implants require materials that resist corrosion. Titanium alloys excel in this area due to a protective oxide layer that safeguards against deterioration, particularly in saline conditions. This property is vital for 12mm bars, ensuring long-term functionality and safety.

Mechanical Strength
With impressive tensile strength, titanium alloys can endure significant loads and stresses in medical settings. A 12mm titanium alloy bar is capable of supporting substantial forces without deformation, making it perfect for load-bearing applications like hip and knee replacements. This mechanical integrity is crucial for the durability of implants.

Lightweight Nature
Titanium's lightweight characteristics provide added comfort for patients, especially in orthopedic applications. The 12mm titanium alloy bars reduce stress on surrounding tissues, facilitating mobility and promoting faster recovery times, compared to heavier alternatives like stainless steel.

Medical titanium bar

Application: Medical, surgical implant(Bone nail implant, dentistry, etc.)

Standard : ASTM F67 ASTM F136,ISO 5832-3

Material Grade: Grade 2, Grade 5, Garde 23(Ti6Al4V ELI),Ti6Al7Nb

Diameter: 5mm 6mm 8mm 10mm 12mm 14mm 16mm 20mm etc.

Length: The common length is 3000mm, as customers' requests

Tolerance grade:h7 h8 h9 h10

Shape: Round

Surface: Bright

Supply status: Annealed M

Certificate: ISO 9001, third-party inspection is available(SGS TUV, etc.).

Package: Export Carton box or plywood case.

Quality and Test: EN10204.3.1 certificate

Alloy titanium rods in sizes 6mm, 12mm, and 20mm play a vital role in modern medicine, particularly in orthopedic and dental applications. Their unique combination of biocompatibility, corrosion resistance, and mechanical strength makes them indispensable for a wide range of medical devices and implants. As advancements in medical technology continue to evolve, the importance of high-quality titanium rods will only grow, driving innovation in patient care and treatment outcomes. Understanding the benefits and applications of these rods is essential for medical professionals dedicated to improving healthcare practices and enhancing patient well-being.

Advantages of Titanium and Titanium Alloys as Marine Materials

Titanium and its alloys are nearly ideal for marine applications, offering several key advantages for shipbuilding:

Lightweight and High Strength: With a density of 4.5 g/cm³, titanium is lighter than iron but denser than aluminum. It possesses three times the strength of aluminum, making it a preferred material in high-strength applications. Titanium submersibles can dive up to 10,000 meters, outperforming steel in depth capabilities. Additionally, its non-magnetic nature protects against magnetic threats, enhancing military applications.

Corrosion Resistance: Titanium alloys form a stable oxide layer when exposed to oxygen, providing exceptional protection in marine environments. Research shows minimal corrosion rates over 16 years in various marine conditions, extending vessel lifespan and reducing maintenance costs.

Excellent Overall Performance: Titanium alloys are highly adaptable, suitable for various processing methods like forging and welding. They maintain toughness across a wide temperature range (-60 to 20°C) and outperform aluminum and steel in heat resistance and fracture toughness.

Current Applications: Countries like Russia, the U.S., Japan, and China are at the forefront of marine titanium alloy research. A comprehensive table details commonly used titanium components in global shipping applications.

Corrosion Resistance

Corrosion resistance is another standout feature of Grade 3 titanium. The alloy forms a protective oxide layer when exposed to air, which effectively prevents further oxidation. This characteristic is especially important in medical applications, where implants are frequently subjected to harsh environments within the body, including exposure to various bodily fluids. The corrosion resistance of Grade 3 titanium significantly contributes to the longevity of medical devices, ensuring that they remain functional over extended periods without degradation.

Chemical composition of medical titanium bar: