AMS4964 Ti-4.5Al-3V-2Fe-2Mo Titanium Alloy Bars, Wire, Forgings, and Rings, Annealed

AMS4964 Ti4.5Al3V2Fe2Mo Bars, Forgings and Rings, Annealed

  • SP-700, Ti4.5Al3V2Mo2Fe
  • Annealed condition
  • Bar, Rings, Forgings

Features

AMS4964 Ti4.5Al3V2Fe2Mo Bars, Forgings and Rings, Annealed

Chemical Composition (wt.%) of AMS4964 Ti4.5Al3V2Fe2Mo Bars, Forgings and Rings, Annealed

Elements Metric Value
Aluminum, Al 4.0 – 5.0 %
Carbon, C <= 0.80 %
Hydrogen, H <= 0.010 %
Iron, Fe 1.7 – 2.3 %
Molybdenum, Mo 1.8 – 2.2 %
Niobium, Nb (Columbium, Cb) 6.5 – 7.5 %
Nitrogen, N <= 0.050 %
Other, each <= 0.10 %
Other, total <= 0.40 %
Oxygen, O <= 0.15 %
Titanium, Ti 87%
Vanadium, V 2.5 – 3.5 %
Yttrium, Y <= 0.0050 %

Technical Specifications

Specification Value
Standard AMS4964 Ti4.5Al3V2Fe2Mo Titanium Alloy Bars, Wire, Forgings, and Rings, Annealed
Grade SP-700, Ti4.5Al3V2Fe2Mo
Type Bar, Wire, Forgings, Rings
Dimension Bar Dia: 0.25 to 12 inches (6.35 to 304.8 mm), Length up to 20 feet (6096 mm)
Wire Dia: 0.020 to 0.500 inches (0.51 to 12.7 mm)
Block: Width: 2 – 24 inches (50 -610mm) x Height: 2 – 24 inches (50-610mm) x Length: 2 – 20 feet (610-6100mm)
Rings: OD: 250-1500mm, ID: 150-1400mm, Height: 20-500mm
Density 4.51g/cm³
Inspection Certificate EN 10204 Type 3.1 (Mill Test Certificate), EN 10204 Type 3.2 (Witness Testing or 3rd Party Inspection)
Tests Chemical Composition, Mechanical Properties
Key Features

High Strength: Offers superior tensile strength, making it suitable for load-bearing applications.
Low Density: Despite its strength, it remains lightweight, which is crucial for both aerospace and medical implants.
Good Ductility: Allows for shaping and forming operations without significant cracking or failure.
Excellent Fatigue Resistance: Important for cyclic loading conditions seen in both aerospace structures and medical devices.
Corrosion Resistance: Excellent in Harsh Environments, resistance to Stress Corrosion Cracking
Biocompatibility: Suitable for Implants, its composition avoids potentially toxic elements like vanadium found in other titanium alloys, enhancing its biocompatibility for medical implants. It is also non-allergenic and less likely to cause adverse reactions in the body, which is critical for long-term implants.
Thermal Stability: It can maintain its mechanical properties at elevated temperatures, a feature useful in aerospace and some medical sterilization processes.
Workability: Can be welded using conventional techniques, which is beneficial for manufacturing complex components or assemblies.
Formability: Its alloying elements allow for better formability than pure titanium, though it requires careful handling to avoid hydrogen pickup.

Packing

Packed in plywood boxes.

Applications

1. Aerospace Industry
Aircraft Components: Used in airframes, engine components, and landing gear due to its high strength-to-weight ratio and corrosion resistance.
Spacecraft Structures: Utilized in structures that require lightweight materials with high mechanical performance.
2. Medical Applications
Implants: Commonly used in surgical implants (e.g., orthopedic and dental implants) because of its biocompatibility and mechanical properties.
Surgical Instruments: Employed in the production of surgical tools and equipment.
3. Automotive Industry
High-Performance Parts: Used in components requiring high strength and reduced weight, such as suspension parts and exhaust systems.
4. Marine Applications
Marine Hardware: Suitable for components exposed to seawater due to its excellent corrosion resistance.
5. Chemical Processing
Pressure Vessels and Heat Exchangers: Utilized in environments where resistance to corrosion and high temperatures is critical.
6. Sports Equipment
High-Performance Gear: Incorporated into bicycles, golf clubs, and other sports equipment to enhance performance through weight reduction.

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