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Home > products > Titanium Rod > Grade 5 Titanium Rod Titanium Bars Pure Titanium Gr5 Bar Improving Efficiency And Performance

Grade 5 Titanium Rod Titanium Bars Pure Titanium Gr5 Bar Improving Efficiency And Performance

Product Details

Place of Origin: Baoji, China

Brand Name: LHTi

Certification: ISO9001, CE, API,etc

Model Number: Titanium Rod

Payment & Shipping Terms

Minimum Order Quantity: 200 pieces

Price: negotiable

Packaging Details: Carton, Plywood case, as per your requirement

Delivery Time: about 20-45 days for delivery

Payment Terms: L/C, D/A, D/P, T/T

Supply Ability: 100-200 Ton/Tons Per Month

Get Best Price
Highlight:
Corrosion Resistance:
Excellent
Hs Code:
8108904090
Thickness:
2mm
Cold Rolling:
As Customer Available
Key Words:
Gr2 Titanium Coil Tube
Diameter Tolerance:
Min 0.005mm
Hardness:
HV200
Advantage:
High Performance
Applications:
Aerospace, Medical, Chemical Processing
Material:
Titanium
Pipe Diameter:
Customized
Standard:
AMS 4928 AMS6931
Processing:
Forging Rolling Annealing
Process:
Forged
Corrosion Resistance:
Excellent
Hs Code:
8108904090
Thickness:
2mm
Cold Rolling:
As Customer Available
Key Words:
Gr2 Titanium Coil Tube
Diameter Tolerance:
Min 0.005mm
Hardness:
HV200
Advantage:
High Performance
Applications:
Aerospace, Medical, Chemical Processing
Material:
Titanium
Pipe Diameter:
Customized
Standard:
AMS 4928 AMS6931
Processing:
Forging Rolling Annealing
Process:
Forged
Grade 5 Titanium Rod Titanium Bars Pure Titanium Gr5 Bar Improving Efficiency And Performance

Grade 5 Titanium Rod Titanium Bars Pure Titanium Gr5 Bar Improving Efficiency And Performance

 

Introduction to Titanium Rod:

The biocompatibility of Grade 5 titanium ensures that it integrates well with human tissue, significantly reducing the risk of adverse reactions. Additionally, its corrosion resistance makes it suitable for long-term implantation in the body, maintaining structural integrity even in harsh biological environments. With compliance to rigorous standards such as ASTM F136, these titanium bars are manufactured under strict quality controls, ensuring reliability and safety.

 

In medical settings, the 10mm and 12mm Gr5 titanium alloy bars are utilized in various applications, including orthopedic implants, dental devices, and surgical instruments. Their versatility and strength allow for innovative designs that enhance patient outcomes. As the medical field continues to advance, the use of titanium alloys like Gr5 will remain integral in developing effective and safe medical solutions.

 

Summary Table of Specifications:

Grade Chemical Composition (Approx.) Tensile Strength (MPa) Yield Strength (MPa) Elongation Primary Applications
Grade 1 Ti (min) 99.5%, Fe max 0.2%, O max 0.18% 240 MPa (35 ksi) 170 MPa (25 ksi) 24% Medical implants, marine, chemical processing
Grade 2 Ti (min) 99.2%, Fe max 0.3%, O max 0.25% 350 MPa (50.8 ksi) 275 MPa (40 ksi) 20% Chemical processing, piping, aerospace
Grade 5 Ti 90%, Al 5.5-6.75%, V 3.5-4.5%, Fe max 0.3%, O max 0.20% 895 MPa (130 ksi) 828 MPa (120 ksi) 10% Aerospace, military, high-performance applications

 


Grade 5 Titanium Rod Titanium Bars Pure Titanium Gr5  Bar Improving Efficiency And Performance 0

Advantages of Grade 5 Titanium Rods

Grade 5 titanium, also known as Ti-6Al-4V, is a popular titanium alloy with several advantageous properties, making it ideal for various applications. Here are some key advantages of Grade 5 titanium rods:

 

High Strength-to-Weight Ratio: Grade 5 titanium has an excellent strength-to-weight ratio, making it ideal for aerospace, automotive, and marine applications where reducing weight is crucial.

 

Corrosion Resistance: This alloy is highly resistant to corrosion, particularly in harsh environments, making it suitable for chemical processing, marine applications, and biomedical uses.

 

Heat Resistance: Grade 5 titanium can withstand high temperatures, maintaining its mechanical properties even at elevated temperatures, which is beneficial in high-performance applications.

 

Biocompatibility: It is biocompatible, making it a popular choice for medical implants and devices, as it minimizes the risk of adverse reactions in the body.

 

Good Weldability: Grade 5 titanium can be welded and fabricated using various techniques, allowing for versatility in manufacturing processes.

 

Fatigue Resistance: The alloy exhibits excellent fatigue strength, making it suitable for components subjected to cyclic loading.

 

Low Thermal Conductivity: This property can be advantageous in applications where heat management is important, such as in certain aerospace components.

 

Non-Magnetic: Grade 5 titanium is non-magnetic, which can be beneficial in certain electronic and medical applications.

These advantages make Grade 5 titanium rods a preferred choice in industries such as aerospace, medical, automotive, and marine.

 

 

Differences between Different Grades:

 

Grade Key Advantages
Grade 1 - Excellent corrosion resistance (seawater, acids)
  - Biocompatible for medical implants
  - High ductility and formability for easy fabrication
  - Low density, ideal for lightweight applications
  - Cost-effective for non-critical strength applications
Grade 2 - Stronger than Grade 1, ideal for moderate strength needs
  - Superior corrosion resistance in aggressive environments
  - Good strength-to-weight ratio, suitable for aerospace and marine industries
  - Biocompatible, used in medical implants
  - Good weldability and formability for complex parts
Grade 5 - High strength and fatigue resistance, ideal for high-performance applications
  - Excellent strength-to-weight ratio for aerospace, military, and automotive industries
  - Good corrosion resistance, particularly in oxidizing environments
  - Versatile for various applications, including aerospace, sports equipment, and medical implants
  - Excellent weldability and high-temperature performance

Grade 5 Titanium Rod Titanium Bars Pure Titanium Gr5  Bar Improving Efficiency And Performance 1
 

Manufacturing Processes of Gr1 and Gr2 Titanium Bars

Manufacturing titanium bars involves several key processes that ensure the material meets specific mechanical and physical properties. Here are the primary manufacturing processes:

  1. Raw Material Extraction:

    • Titanium is extracted from ores such as ilmenite and rutile. The extraction process typically involves a series of chemical reactions, including the Kroll process, where titanium tetrachloride is reduced to titanium.
  2. Melting:

    • Vacuum Arc Remelting (VAR): This process involves melting titanium under a vacuum to prevent contamination. It improves purity and enhances mechanical properties.
    • Electron Beam Melting (EBM): Similar to VAR, this method uses an electron beam to melt titanium, producing high-purity titanium with a fine microstructure.
  3. Forming:

    • Hot Working: Titanium can be hot worked through processes such as forging or rolling. This involves heating the titanium to a specific temperature range (typically 800-1000°C) to improve ductility and reduce the risk of cracking.
    • Cold Working: After initial shaping, titanium can undergo cold working to enhance strength through strain hardening.
  4. Machining:

    • Titanium bars are often machined to achieve precise dimensions and surface finishes. Techniques include turning, milling, and grinding. Due to titanium's toughness, special cutting tools and slower speeds are used to prevent tool wear.
  5. Heat Treatment:

    • Heat treatment processes such as annealing or aging may be employed to optimize the mechanical properties of the titanium bars. This can enhance strength and ductility, depending on the desired application.
  6. Surface Treatment:

    • Various surface treatments may be applied to improve corrosion resistance or wear properties. Techniques include anodizing, passivation, or coating.
  7. Quality Control:

    • Throughout the manufacturing process, rigorous quality control measures are implemented. This includes testing for chemical composition, mechanical properties, and non-destructive testing (NDT) to detect any defects.

 

Applicationsof Titanium Rod:

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.