Medical titanium alloy

Titanium Grades 1, 2, 3 and 4 are commercially pure (99% minimum titanium). Each grade has slight variations in chemical composition that affect mechanical properties and design capability.

Available form
ROD | WIRES | SHEETS | COIL | STRIPS

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we are Medical titanium alloy suppliers in India and overseas. Medical titanium alloy is represented by four distinct grades, specifically grade 1, grade 2, grade 3, and grade 4. Commercially Pure Titanium has become a fundamental material used in medicine due to its ability to resist corrosion, biocompatibility, and natural ability to join with human bone. Many medical materials are made with Titanium including surgical titanium instruments, orthopedic titanium rods, pins and plates, and medical and dental titanium.

Here are some key uses of medical titanium metals:

Orthopedic Implants:

Titanium alloys are extensively used in orthopedic implants such as joint replacements (e.g., hip and knee implants), bone plates, and screws. Their high strength-to-weight ratio and biocompatibility ensure long-term stability and integration with the patient’s bone structure.

Dental Implants:

Dental implants made from titanium alloys are preferred due to their corrosion resistance and ability to fuse with the jawbone (osseointegration). They provide a stable foundation for dental crowns, bridges, and dentures, improving patient comfort and functionality.

Surgical Instruments:

Titanium alloys are used to manufacture surgical instruments and tools due to their durability, lightweight nature, and resistance to sterilization processes. They enable precise and effective surgical procedures while maintaining hygiene standards.

Cardiovascular Devices:

In cardiovascular medicine, titanium alloys are used in devices such as stents and pacemaker components. Their biocompatibility ensures minimal adverse reactions and promotes tissue healing around the implanted device.

Medical Equipment and Instruments:

Titanium alloys are employed in various medical equipment, including MRI scanners and surgical cameras, due to their non-magnetic properties and ability to withstand harsh medical environments.

External Prosthetics:

External prosthetic devices benefit from titanium alloys’ strength and lightweight nature, providing comfort and durability for users.

Biomedical Research and Development:

In research and development, titanium alloys are crucial for prototyping and testing new medical devices and implants. Their mechanical properties allow for the creation of innovative solutions that meet specific patient needs.

Trauma Fixation Devices:

In trauma surgery, titanium alloys are used for fixation devices such as screws, plates, and rods to stabilize fractures and facilitate bone healing without the risk of allergic reactions or tissue rejection.

Neurosurgical Applications:

Titanium alloys are utilized in neurosurgery for cranial implants and spinal implants due to their biocompatibility and ability to integrate seamlessly with neurological tissues.

Long-term Reliability:

One of the key advantages of medical titanium alloys is their long-term reliability. They resist corrosion and degradation in the body, ensuring the longevity of implants and devices.

Commercially Pure Titanium Applications.
• Orthopaedic applications
• Needles
• Pacing leads
• Woven wire mesh
• Sutures
• Ligature clips
• Orthodontic appliances
• Eyeglass frames

Ti-6Al-4V Titanium Alloy Available Forms.
• Coil
• Sheet
• Strip
• Foil
• Wire
• Profile (Shaped Wire)
• Round
• Flat

GRADE Carbon Nitrogen Oxygen Hydrogen Iron Titanium Tensile Yield Elong. ( 2″)
Max % Max % Max % Max % Max %   KSI KSI %
1 0.08 0.03 0.18 0.015 0.2 Balance 35 25 24
2 0.08 0.03 0.25 0.015 0.3 Balance 50 40 20
3 0.08 0.05 0.35 0.015 0.5 Balance 65 55 18
4 0.08 0.05 0.4 0.015 Balance 80 70 15

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