TM10794 Titanium Alloy Sheet Ti-10V-2Fe-3Al Grade 19 UNS R58640

Titanium Alloy Sheet Ti-10V-2Fe-3Al Grade 19 UNS R58640 Description

Titanium Alloy Sheet Ti-10V-2Fe-3Al Grade 19 UNS R58640 is produced from titanium with specified contents of 10% vanadium, 2% iron, and 3% aluminium. The sheet configuration facilitates conventional fabrication processes such as rolling and forming. Its controlled alloy makeup supports measured mechanical properties according to ASTM B265, making it applicable for sectors where dimensional stability and material performance are critical.

Titanium Alloy Sheet Ti-10V-2Fe-3Al Grade 19 UNS R58640 Characteristics

*The above product information is based on theoretical data and is for reference only. Actual specifications may vary.

Titanium Alloy Sheet Ti-10V-2Fe-3Al Grade 19 UNS R58640 Applications

Aerospace/Structural Applications
- Utilised as structural panels in aerospace components to achieve weight reduction while maintaining load-bearing capacity by leveraging the alloy's controlled composition.
- Applied as exterior skins in aircraft to ensure dimensional stability and predictable performance during cyclic loading.

Industrial Manufacturing Applications
- Used as cladding in chemical processing equipment to mitigate corrosion through the formation of a protective oxide layer, utilising titanium's inherent surface characteristics.
- Employed in precision machined parts where consistent sheet flatness enables accurate fabrication tolerances and efficient production processes.

Titanium Alloy Sheet Ti-10V-2Fe-3Al Grade 19 UNS R58640 Packing

The sheets are individually wrapped in corrosion-inhibiting materials and enclosed in protective plastic carriers to minimise surface damage. They are stored in flat, climate-controlled conditions to reduce moisture-induced degradation. Anti-contamination measures, including sealed containers and clean room packaging options, are implemented. Customised sizing, labelling, and packing configurations are available to meet specific logistical and storage requirements.

Additional Information

Titanium alloys exhibit unique characteristics due to their balanced composition, offering a mix of low density and high strength. These materials are widely studied in materials science for their response to thermal and mechanical stresses, making them relevant to diverse industrial sectors. The interplay of alloying elements in titanium systems is a subject of ongoing research aimed at optimising properties for structural and corrosion-resistant applications.

Understanding titanium alloy processing and phase transformations is essential in modern manufacturing. Academic and industry research continues to explore improvements in microstructure control, which directly influences ductility and hardness. Such insights drive advancements in both fabrication techniques and end-use performance in sectors ranging from aerospace to industrial machinery.