TM10726 Titanium Aluminium Niobium Alloy Strip, TiAlNb UNS R56700

Titanium Aluminium Niobium Alloy Strip, TiAlNb UNS R56700 Description

Titanium Aluminium Niobium Alloy Strip, TiAlNb UNS R56700 is a titanium alloy that incorporates controlled amounts of aluminium and niobium to achieve specific mechanical and chemical properties. The alloy meets ASTM F1295 standards and is processed into a strip form suitable for component fabrication. Its engineering formulation supports applications requiring stable mechanical performance, high corrosion resistance, and adherence to defined compositional tolerances, making it a suitable material for various industrial processes.

Titanium Aluminium Niobium Alloy Strip, TiAlNb UNS R56700 Characteristics

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

Chemical Composition

Titanium Aluminium Niobium Alloy Strip, TiAlNb UNS R56700 Applications

Industrial Applications
• Used as a component in high-temperature processing equipment to address material degradation by leveraging its controlled alloy stability. This improves system durability under thermal stress.

Electronics Applications
• Employed as an interconnect material in electronic assemblies to overcome issues with thermal expansion by leveraging its defined composition. This use minimises misalignment in high-density circuits.

Medical Applications
• Applied in the manufacture of surgical instrument components to tackle corrosion and sterilisation challenges by utilising titanium's inert characteristics. This enhances component longevity and safety.

Titanium Aluminium Niobium Alloy Strip, TiAlNb UNS R56700 Packing

The alloy strip is packaged in corrosion-resistant, anti-static wrapping and secured within rigid, moisture-barrier containers. Packaging is designed to prevent physical damage and contamination during transit and storage. The material is stored in a clean, temperature-controlled environment. Custom packaging options, including protective inserts and labelling, are available to meet specific handling and storage requirements.

Additional Information

Titanium alloys are widely used in industrial and medical applications due to their favourable strength-to-weight ratio and chemical inertness. The processing of titanium-based alloys, particularly through thermomechanical methods, ensures that the microstructure develops in a controlled manner, thereby enhancing mechanical properties.

Understanding the influence of alloying elements such as aluminium and niobium is crucial in tailoring the material properties for targeted applications. Research in materials science continues to evolve, emphasising the importance of controlled compositional analysis and advanced processing techniques in achieving consistent and repeatable characteristics.