The application of niobium capillary tubes

The application of niobium tubings in high-tech physics fields
In the field of superconducting technology, niobium tube, as the core component of low-temperature superconducting materials, are used to manufacture MRI magnets, particle accelerator coils, etc., to achieve efficient current transmission and strong magnetic field generation. It is also used in the construction of superconducting qubits to support quantum information processing. In the fields of nuclear energy and particle physics, due to its characteristics such as radiation resistance, it has become the preferred material for the cooling channels of nuclear reactors, precisely delivering coolants. It is also used to manufacture micro-gas channels for particle detectors, precisely tracking the trajectories of charged particles.

The application of niobium capillaries tubes in industrial and medical fields
In the chemical and high-temperature industries, niobium capillaries pipe, due to their corrosion resistance, are used as reactor linings or conveying pipes in environments with strong acids and strong alkalis. By taking advantage of its high melting point characteristic, it serves as the core structure of microreactors in high-temperature catalytic reactions and chemical vapor deposition equipment. In medical and bioengineering, based on biocompatibility and anti-corrosion ability, it is suitable for implantable devices such as cardiovascular stent delivery catheters. It is also integrated into microfluidic chips to achieve nanoscale fluid control and is used in precision medical scenarios such as single-cell analysis.

The application of niobium capillary tube in aerospace, scientific research and other fields
In the fields of aerospace and high-end manufacturing, niobium capillaries are used in the micro fuel nozzles of rocket engines, which can withstand extreme conditions and ensure the precise atomization of propellants. It is used as a metal powder conveying channel in 3D printing equipment to prevent contamination. In scientific research and optical applications, due to its low coefficient of thermal expansion and high vacuum compatibility, it has become an ideal material for related components of synchrotron radiation devices. In low-temperature experiments, it is used to construct thermal switches or cooling channels, and efficient thermal management is achieved by taking advantage of superconducting properties.

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