Aerospace AMS 4928 Titanium Alloy Rods

Aerospace AMS 4928 Titanium Alloy Rods

Standard: ASTM F136, AMS 4928
Material Grades: GR1, GR2, GR3, GR5, GR7, GR12
Length: 1000 - 4000 mm
Diameter: 1.0 - 500 mm
Surface: Polished, Peeled, Machined, or Black
Shape: Round, Square, Hexagonal, Rectangular
Minimum Order Quantity: 100 kg
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Detailed Description

 

AMS 4928 specifies a titanium alloy composed of 6% aluminum (Al) and 4% vanadium (V), with a typical composition of 90% titanium (Ti), 5.50-6.75% aluminum (Al), and 3.50-4.50% vanadium (V). Aerospace AMS 4928 titanium alloy rods exhibit low density (approximately 60% that of steel), high specific strength, excellent thermal stability, and superior corrosion resistance.
The mechanical properties of AMS 4928 include high tensile strength (1250 MPa), yield strength (862-910 MPa), elongation (10-18%), and excellent fatigue strength. The hardness of AMS 4928 titanium rods is approximately 300 BHN. Heat treatment can increase strength and hardness by about 20%, with aged properties achieving strengths up to 150,000 psi (1034 MPa) and hardness up to 360 BHN.

 

Key Advantages

 

AMS 4928 titanium alloy rods offer the following benefits:
High Specific Strength: Ideal for aerospace and automotive applications where weight reduction is critical.
Corrosion Resistance: Excellent performance in harsh environments.
Biocompatibility: Suitable for medical implants and devices.
Thermal Stability: Reliable performance in high-temperature applications.
Machinability: Good formability and processability for complex components.

 

Applications of AMS 4928 Titanium Alloy Rods

 

Aircraft Engine Components: Compressor disks, turbine blades, casings, and other critical parts requiring high strength and heat resistance.
Aircraft Structures: Beams, ribs, connectors, and fasteners for airframes and wing boxes, enabling weight reduction and improved fuel efficiency.
Spacecraft Structures: Satellite supports, rocket components, and spacecraft housings where low density and high strength are essential.
Fasteners: Bolts, screws, and other high-reliability fasteners for aerospace assembly.
Additive Manufacturing: Used in Directed Energy Deposition (DED) to produce complex, large-scale components.
Landing Gear Components: High-strength, fatigue-resistant parts for aircraft landing systems.

 

Processing Considerations for AMS 4928 Titanium Alloy Rods

 

Temperature Control: Avoid excessive heat to prevent microstructural damage.
Cutting Speed: Use lower speeds to reduce tool wear and ensure surface quality.
Cooling and Lubrication: Implement efficient cooling systems to manage heat generation.
Tool Selection: Choose tool materials and geometries optimized for titanium machining.
Surface Treatment: Prevent defects such as cracks or deformation during processing.
Quality Control: Conduct rigorous inspections for chemistry, mechanical properties, and dimensional accuracy.
Contamination Prevention: Maintain material purity by avoiding exposure to contaminants.

 

Contact

 

STRX Titanium has evolved from a material supplier to an integrated structural-functional solution provider, offering end-to-end services from material certification to component manufacturing for aerospace, biomedical, and other high-tech industries.
We understand the importance of competitive pricing and offer Aerospace AMS 4928 titanium alloy rods at highly cost-effective rates. Choosing our products means not only procuring premium materials but also gaining access to lightweight design expertise and lifecycle cost optimization.
We are committed to delivering exceptional service and on-time delivery. Contact us to discuss your requirements.

Email: info@strx-titanium.com

 

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