TM10725 Titanium Aluminium Niobium Alloy Sheet, TiAlNb UNS R56700

Titanium Aluminium Niobium Alloy Sheet, TiAlNb UNS R56700 Description

Titanium Aluminium Niobium Alloy Sheet, TiAlNb UNS R56700 is formulated from a specific blend of titanium, aluminium, and niobium, resulting in a material with a balanced strength-to-weight ratio and improved thermal stability. This sheet provides dimensional consistency and a uniform microstructure, making it suitable for applications where precision and performance under stress are critical. Its composition supports controlled mechanical and chemical behaviour during fabrication and in-service conditions.

Titanium Aluminium Niobium Alloy Sheet, 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 Sheet, TiAlNb UNS R56700 Applications

1.       Aerospace Applications
   - • Used as a structural component in aerospace assemblies to achieve weight reduction by leveraging the alloy's high strength-to-weight ratio.
   - • Applied as a heat-resistant panel in airframe constructions to manage thermal loads by leveraging its stable microstructure.

2.       Industrial Applications
   - • Employed as a key element in high-temperature processing equipment to maintain dimensional stability by leveraging the alloy's thermal resistance.
   - • Utilised in precision machining fixtures to ensure consistent performance under stress by leveraging its controlled composition.

Titanium Aluminium Niobium Alloy Sheet, TiAlNb UNS R56700 Packing

The alloy sheet is packaged in vibration-damping, anti-corrosive wraps and sealed in moisture-resistant containers. Protective foam inserts secure the sheet against mechanical impacts during transit. Recommended storage conditions include a dry, temperature-stable environment to prevent oxidation. Custom labelling and packaging configurations are available to meet specific handling requirements.

Additional Information

Titanium alloys are critical in modern engineering for applications requiring efficient load management and corrosion resistance. The combination of titanium with aluminium and niobium yields materials that balance strength and stability, making them ideal for high-temperature operations and high-stress environments. 

The broader field of titanium-based materials continues to advance with precise control over alloy composition and microstructural features, supporting innovations in aerospace, industrial machinery, and precision engineering. Detailed metallurgical assessments ensure these materials meet stringent operational standards.