NB6153 Niobium Titanium Alloy Tube

Niobium Titanium Alloy Tube Description

Niobium Titanium Alloy Tube is a superconducting material formed from an alloy of niobium (Nb) and titanium (Ti) that is fabricated into a tubular shape. Like NbTi wire, this alloy becomes superconducting at low temperatures and has unique properties that make it suitable for high-performance applications requiring zero electrical resistance and strong magnetic fields.

Niobium Titanium Alloy Tube Specifications

*If you need special dimensions, please contact us.

Niobium Titanium Alloy Tube Applications

• Magnetic Resonance Imaging (MRI): NbTi tubes are used in superconducting magnets for MRI machines, which require strong magnetic fields to function.
• Particle Accelerators: NbTi tubes are used in superconducting magnets in particle accelerators to guide and control the paths of high-energy particles.
• Fusion Reactors: In fusion energy research, NbTi tubes can be used in magnetic confinement systems to maintain and stabilize plasma.
• Superconducting Magnets: NbTi tubes are employed in various scientific and industrial applications that require strong superconducting magnets, including research magnets and energy storage systems.
• Magnetic Levitation (Maglev) Trains: NbTi tubes can be used to create the powerful magnetic fields needed to levitate and propel maglev trains.

Niobium Titanium Alloy Tube Packaging

Our Niobium Titanium Alloy Tube is carefully handled during storage and transportation to preserve the quality of our product in its original condition.

FAQs

Q1: What is Niobium Titanium Alloy Tube?

Niobium Titanium Alloy Tube (NbTi Tube) is a superconducting material made from an alloy of niobium and titanium, designed in a tubular shape. It exhibits superconductivity at low temperatures and is used in high-performance applications requiring strong magnetic fields and efficient electrical current transmission.

Q2: What are the main applications of NbTi Tubes?

NbTi tubes are used in MRI machines, particle accelerators, fusion reactors, superconducting magnets, maglev trains, and other scientific or industrial applications that require high magnetic fields and superconductivity.

Q3: What is the critical temperature of NbTi tubes?

The critical temperature of NbTi tubes is around 9.2 Kelvin (-263.95°C), below which they become superconducting.