Titanium Industrial Bar Titanium Rod Grade 5 for Surgical Procedures Diverse Inventory Available for Urgent Delivery

Medical titanium bars, particularly those manufactured in ASTM Grade 5, represent a significant advancement in the field of medical materials. This grade, also known as Ti-6Al-4V, is an alloy composed of 90% titanium, 6% aluminum, and 4% vanadium, making it one of the most commonly used titanium alloys in medical applications. Its exceptional properties make it an ideal choice for manufacturing a wide range of medical devices, prostheses, artificial organs, and auxiliary treatment devices that are implanted in the human body.

One of the key advantages of ASTM Grade 5 titanium alloys is their high specific strength. This characteristic allows for the creation of implants that are not only lightweight but also strong enough to withstand the stresses encountered in the human body. The mechanical properties of these alloys closely mimic those of human bone, which is crucial for ensuring the proper integration and functionality of implants. This similarity helps in reducing the risk of complications such as stress shielding, where the difference in stiffness between the implant and surrounding bone can lead to bone resorption and implant failure.

In addition to their mechanical advantages, ASTM Grade 5 titanium alloys exhibit excellent fatigue resistance. This property is vital for devices that will experience repeated loading and unloading, such as joint replacements and dental implants. The fatigue resistance of titanium ensures that these devices maintain their integrity over time, even under strenuous conditions.

Corrosion resistance is another remarkable feature of titanium alloys. The human body is a complex environment filled with various fluids and biological substances that can cause the degradation of materials. However, titanium forms a protective oxide layer that significantly enhances its resistance to corrosion. This characteristic is particularly important for implants that must remain in the body for extended periods, as it helps ensure long-term durability and reliability.

Furthermore, the biocompatibility of ASTM Grade 5 titanium alloys is a crucial factor in their use in medical applications. These alloys do not induce adverse reactions when in contact with human tissue, making them safe for implantation. This biocompatibility is supported by extensive research and clinical studies, confirming that titanium implants integrate well with bone and other tissues.

Introduction to Titanium Bars

Titanium alloys are widely recognized as an ideal implant material due to their excellent compatibility with human tissue. Their unique properties make them invaluable in surgical and dental procedures. Titanium alloys are used to create a range of medical devices, including hip and femoral head implants, artificial vertebral bodies, knee and elbow joints, dental fixtures, pacemaker shells, heart valves, and even titanium mesh for cranial reconstruction.

We offer a diverse inventory of medical titanium rods in various sizes, including 3mm, 4mm, 5mm, 6mm, 8mm, 10mm, and 12mm. This extensive stock allows us to meet the urgent delivery needs of our customers, as well as accommodate smaller order requirements.
Titanium bars are solid, cylindrical pieces of metal primarily composed of titanium, known for their lightweight yet robust nature. They exhibit exceptional corrosion resistance and a high strength-to-weight ratio, making them suitable for critical applications across various industries. Manufactured through specialized processes that adhere to stringent industry standards, these titanium bars ensure reliability and performance in demanding environments.

In summary, the versatility and biocompatibility of titanium bars position them as a crucial element in the medical field, contributing significantly to advancements in patient care and surgical outcomes. Their availability in multiple sizes allows for flexibility in application, catering to both large-scale and urgent demands.

Chemical composition of medical tianium bar:

Grade 5 titanium alloy, also known as Ti-6Al-4V, is one of the most widely used titanium alloys due to its excellent mechanical properties and corrosion resistance. The chemical composition of Grade 5 titanium alloy typically includes:

• Titanium (Ti): 90.0% minimum
• Aluminum (Al): 6.0% ± 0.25%
• Vanadium (V): 4.0% ± 0.15%
• Iron (Fe): 0.4% maximum
• Oxygen (O): 0.2% maximum (for standard Grade 5; ELI versions may have lower limits)
• Nitrogen (N): 0.05% maximum
• Carbon (C): 0.1% maximum

This composition gives Grade 5 titanium alloy its high strength, low weight, and excellent fatigue resistance, making it suitable for aerospace, medical, and high-performance engineering applications.

Gr 5 titanium bar / rod Mechanical Properties

Equivalent Grades for Gr 5

Advantages of Grade 5 Titanium Rods

Titanium Grade 5 (Ti-6Al-4V) is widely regarded for its exceptional properties, making it a preferred material in many industries. Here are the key advantages of Titanium Grade 5:

High Strength-to-Weight Ratio: Titanium Grade 5 offers superior strength while being significantly lighter than steel, making it ideal for applications where weight savings are crucial, such as in aerospace and automotive industries.

Corrosion Resistance: This alloy is highly resistant to corrosion in a variety of environments, including seawater and acidic conditions, which enhances its longevity and reduces maintenance costs.

Biocompatibility: Titanium Grade 5 is biocompatible, making it suitable for medical implants and devices that interact with human tissues without causing adverse reactions.

Excellent Fatigue Resistance: The alloy exhibits outstanding fatigue strength, making it reliable for components subjected to cyclic loading, such as aircraft structures.

Good Weldability: Grade 5 titanium can be welded using various techniques, including TIG and MIG welding, which allows for versatile fabrication options.

Heat Resistance: It maintains its strength and stability at elevated temperatures, making it suitable for high-performance applications, such as in engines and turbines.

Low Thermal Conductivity: Titanium Grade 5 has low thermal conductivity, which can be beneficial in applications requiring thermal insulation.

Machinability: While titanium is generally more challenging to machine than other metals, Grade 5 has improved machinability compared to pure titanium, allowing for complex shapes and designs.

Aesthetic Appeal: Titanium can be anodized to produce a range of colors, making it popular in consumer products and jewelry.

Recyclability: Titanium Grade 5 is recyclable, contributing to sustainable manufacturing practices and reducing environmental impact.

These advantages make Titanium Grade 5 a versatile choice for applications ranging from aerospace and military to medical devices and consumer products.

Technical Parameters:

The technical parameters of titanium bars can vary depending on the specific grade and application. However, here are some common parameters to consider:

1. Grade: Titanium bars are available in several grades, with Grade 1 to Grade 4 being commercially pure titanium, and Grades 5 (Ti-6Al-4V) and 6 (Ti-6Al-4V ELI) being titanium alloys with enhanced properties.

2. Chemical Composition:

   • Grade 5: Approximately 90% titanium, 6% aluminum, and 4% vanadium.
   • Grade 2: Approximately 99.2% titanium with small amounts of iron and oxygen.

3. Mechanical Properties:

   • Tensile Strength: Ranges from about 400 to 1,200 MPa (58,000 to 174,000 psi), depending on the grade.
   • Yield Strength: Approximately 240 to 1,000 MPa (35,000 to 145,000 psi).
   • Elongation: Generally ranges from 10% to 30%, indicating ductility.

4. Density: Approximately 4.51 g/cm³, which contributes to its lightweight nature.

5. Hardness: Vickers hardness can range from 160 to 400 HV, depending on the specific grade and treatment.

6. Thermal Properties:

   • Melting Point: Approximately 1,668 °C (3,034 °F).
   • Thermal Conductivity: About 21.9 W/m·K.

7. Dimensions: Titanium bars are typically available in various diameters (ranging from a few millimeters to several inches) and lengths (often from 1 to 6 meters or more), depending on the supplier.

8. Surface Finish: Options may include mill finish, polished, or anodized, depending on application requirements.

9. Standard Specifications: Common standards for titanium bars include ASTM B348 (for titanium and titanium alloy bars) and AMS 4928 (for titanium alloy bars).

Applications of Titanium Bars

Titanium bars are widely used across various industries due to their unique properties, such as high strength, lightweight, excellent corrosion resistance, and biocompatibility. In the aerospace sector, titanium bars are utilized in airframe structures, engine components, and fasteners, significantly enhancing fuel efficiency and flight performance. In the medical field, they are fabricated into orthopedic implants (like screws and plates) and dental implants, and also used for high-strength surgical instruments, making them suitable for long-term implantation in the body due to their biocompatibility.

In marine applications, titanium bars are employed in components such as propellers, shafts, and fittings for boats and submarines, providing resistance to saltwater corrosion. In the chemical processing industry, they are used in pipes and tanks for handling corrosive substances, greatly extending the lifespan of the equipment. Additionally, in the automotive industry, titanium bars are found in high-performance parts like exhaust systems and chassis components, contributing to weight reduction and improved fuel efficiency.

In sports equipment, they are used in high-end bicycles, golf clubs, and other gear where strength and lightweight are critical. Titanium bars also play a role in construction and architecture, serving as structural components and decorative elements, appreciated for their aesthetics and strength. In the energy sector, they are applied in offshore drilling equipment and pipelines in the oil and gas industry, as well as in components for wind turbines and solar panel mounts in renewable energy. Overall, the applications of titanium bars are expanding across multiple industries, and their potential continues to grow with advancements in technology.

In conclusion, ASTM Grade 5 medical titanium bars are indispensable in the production of high-quality medical devices. Their unique combination of strength, fatigue resistance, corrosion resistance, and biocompatibility positions them as a superior choice for implants and other medical applications. As the demand for innovative and reliable medical solutions continues to grow, the role of titanium alloys will remain central to advancements in patient care and surgical technology.