Niobium Alloys

About Niobium Alloys

Tantalum-niobium alloy, niobium-zirconium alloy, platinum-coated niobium, molybdenum-niobium alloy, ferro niobium, aluminium-niobium alloy.

Forms: foil/strip, sheet/plate, tube, bar, wire, disc

Review our curated collection of niobium alloys. Each alloy is engineered to meet defined performance criteria. In controlled tests, these materials have shown up to a 20% improvement in durability and operational performance. They are used in chemical processing, aerospace, and electronics industries.

Explore Our Niobium Alloys:

Tantalum-niobium Alloy: This alloy, composed of tantalum and niobium, exhibits reduced corrosion and high-temperature stability. It is applied in chemical processing, aerospace and electronic manufacturing.

Niobium-zirconium Alloy: This material is formulated to offer increased mechanical strength and improved chemical corrosion resistance. It is utilised in superconducting applications, nuclear reactor components and medical devices.

Platinum-Coated Niobium: In this material a thin platinum layer is deposited on niobium. It is used in electrochemical cells, fuel cells and catalytic processes.

Molybdenum-niobium Alloy: This alloy combines niobium’s ductility with the high-temperature strength provided by molybdenum. It is employed in aerospace components, electronic systems and other high-temperature environments.

Ferro Niobium: Comprised of niobium and iron, this alloy contributes to steelmaking by increasing the strength and stability of structural materials, as confirmed by mechanical testing.

Aluminium-niobium Alloy: This material is produced by combining niobium with aluminium to achieve improved mechanical strength and thermal stability. It finds application in aerospace, automotive manufacturing and electronic systems.

Why Choose Our Niobium Alloys?

Measured Strength and Durability: Our niobium alloys are engineered to provide quantifiable improvements in mechanical strength and durability.

Quality Assurance: Each alloy undergoes rigorous quality control to ensure consistent composition, precise mechanical properties and reliable performance.

Technical Expertise: In collaboration with experts in metallurgy and materials science – including teams at Stanford Advanced Materials (SAM) – technical support is provided for alloy selection, design and application.

Research and Versatility: These alloys support ongoing research and are applicable in aerospace, energy production and advanced materials engineering, as demonstrated in laboratory evaluations.

Global Distribution: Our products are distributed worldwide. A strategically planned distribution network ensures delivery within agreed timeframes, and customer support is available for technical and logistical queries.

Applications for Niobium Alloys:

Advanced Materials: Niobium alloys are employed in superconducting magnets, high-temperature environments and structural components where precise mechanical properties are required.

Electronics and Energy: These alloys are utilised in the manufacture of electronic components, fuel cells and high-performance materials for energy applications.