AMS4967 Ti6Al4V Titanium Alloy Bars, Wire, Forgings, and Rings, Annealed, Heat Treatable

AMS4967 Ti6Al4V Titanium Alloy Bars, Wire, Forgings, and Rings, Annealed, Heat Treatable

  • Grade: Ti6Al4V, Grade 5
  • Annealed condition
  • Bar, Rings, Forgings
  • High Strength and Fatigue Resistance
  • Good Corrosion Resistance
  • Lightweight
  • Good Biocompatibility
  • Heat Treatability

Features

AMS4967 Ti6Al4V Titanium Alloy Bars, Wire, Forgings, and Rings, Annealed, Heat Treatable

AMS4967 Ti6Al4V Chemical Composition (wt.%)
Element Min Max
Aluminum 5.50 6.75
Vanadium 3.50 4.50
Iron 0.30
Oxygen 0.20
Carbon 0.08
Nitrogen 0.05 (500 ppm)
Hydrogen 0.0125 (125 ppm)
Yttrium 0.005 (50 ppm)
Other Elements, each 0.10
Other Elements, total 0.40
Titanium remainder
AMS4967 Ti6Al4V Mechanical Properties (Minimum)
Rounds, Squares, Hexagons, Forgings, and Flash Welded Rings
Nominal Diameter or Distance Between Parallel Sides (mm) Tensile Strength (MPa) Yield Strength at 0.2% Offset (MPa) Elongation in 4D % (L) Elongation in 4D % (T) Reduction of Area %
Up to 12.70, incl 1138 1069 10 20
Over 12.70 to 25.40, incl 1103 1034 10 20
Over 25.40 to 38.10, incl 1069 1000 10 20
Over 38.10 to 50.80, incl 1034 966 10 20
Over 50.80 to 76.20, incl 931 862 10 8 20
Over 76.20 to 101.60, incl 897 828 10 6 20
Rectangles
Nominal Thickness (mm) Nominal Width (mm) Tensile Strength (MPa) Yield Strength at 0.2% Offset (MPa) Elongation in 4D % (L) Elongation in 4D % (T) Reduction of Area %
Up to 12.70, incl Over 12.70 to 203.20, incl 1103 1034 10 10 25
Over 12.70 to 25.40, incl Over 25.40 to 101.60, incl 1069 1000 10 10 20
Over 101.60 to 203.20, incl 1034 966 10 10 20
Over 25.40 to 38.10, incl Over 38.10 to 101.60, incl 1034 966 10 10 20
Over 101.60 to 203.20, incl 1000 931 10 10 20
Over 38.10 to 50.80, incl Over 50.80 to 101.60, incl 1000 931 10 10 20
Over 101.60 to 203.20, incl 966 897 10 10 20
Over 50.80 to 76.20, incl Over 76.20 to 203.20, incl 931 862 10 8 20
Over 76.20 to 101.60, incl Over 101.60 to 203.20, incl 897 828 10 6 20

Technical Specifications

Specification Value
Standard AMS4967 Ti6Al4V Titanium Alloy Bars, Wire, Forgings, and Rings, Annealed, Heat Treatable
Grade Ti6Al4V, Grade 5
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

Composition: Primarily composed of titanium (90-94%), aluminum (5.5-6.75%), and vanadium (3.5-4.5%).
High Strength-to-Weight Ratio: Offers a high tensile strength while being lightweight, making it ideal for aerospace and automotive applications.
Excellent Corrosion Resistance: Resistant to many corrosive environments, including seawater and acidic conditions.
Good Weldability: Can be welded using various methods, although care must be taken to avoid contamination.
Heat Treatable: Can be heat-treated to enhance its mechanical properties, such as strength and hardness.
Biocompatibility: Suitable for medical applications, including implants, due to its biocompatibility.
Versatile Applications: Used in aerospace, medical devices, marine components, and high-performance automotive parts.
Machinability: While it can be challenging to machine, proper techniques and tools can yield good results.
Fatigue Resistance: This exhibits good fatigue properties, making it suitable for cyclic loading applications.

Packing

Packed in plywood boxes.

Applications
Applications in Bar Form:

Aerospace Components: Used for manufacturing structural components such as shafts, rods, and fittings.
Medical Devices: Suitable for surgical instruments and implants due to its biocompatibility.
Marine Applications: Utilized in components exposed to seawater, such as fasteners and brackets.
Automotive Parts: Employed in high-performance automotive applications, including suspension components.

Applications in Forged Form:

Aircraft Engine Parts: Commonly used for forging turbine blades and compressor discs due to its high strength and heat resistance.
Landing Gear Components: Ideal for forging parts that require high strength and durability under load.
Structural Components: Used in critical structural elements in aerospace and military applications.
High-Performance Fasteners: Forged fasteners that require high strength and resistance to fatigue.

Applications in Ring Form:

Sealing Rings: Due to its corrosion resistance, it is used in seals and gaskets for aerospace and automotive applications.
Bearing Rings: Ideal for making bearing components that require high strength and wear resistance.
Piston Rings: Employed in high-performance engines to provide durability and reduce friction.
Turbine Rings: These are used in gas turbines for components that must withstand high temperatures and stresses.

Get A Quote


    captcha