Iron Cobalt Niobium Alloy Sputtering Targets
Iron Cobalt Niobium Alloy Sputtering Targets
Iron Cobalt Niobium Alloy Sputtering Targets | |
Product No | NRE-43461 |
CAS No. | NA |
Formula | Fe-Co-Nb |
Molecular Weight | NA |
Purity | >99.9% |
Density | NA |
Thickness | 3 mm ± 0.5mm (can be customized) |
Diameter | 50 mm ± 1mm (can be customized) |
Shape | Round |
Resistivity | NA |
Thermal Conductivity | NA |
Iron Cobalt Niobium Alloy Sputtering Targets
Iron-cobalt-niobium (Fe-Co-Nb) alloy sputtering targets are used in several specialized applications due to their unique properties, including high strength, magnetic characteristics, and improved corrosion resistance. Here are some key applications.
Magnetic Materials
Permanent Magnets: Fe-Co-Nb alloys are utilized in the production of high-performance permanent magnets, which are essential in motors, generators, and magnetic actuators, benefiting from their strong magnetic properties.
Magnetic Sensors: These alloys are employed in sensitive magnetic sensors for automotive and industrial applications.
Data Storage Devices
Thin Film Media: Fe-Co-Nb sputtered films enhance the performance of hard drives and magnetic tapes, contributing to higher storage densities and improved read/write speeds.
Electronics
Inductors and Transformers: Used in the fabrication of inductors and transformers, where their magnetic permeability helps improve efficiency and performance in power applications.
Biomedical Applications
MRI Technology: Fe-Co-Nb alloys can be employed in components for magnetic resonance imaging (MRI) systems, enhancing imaging capabilities with their strong magnetic properties.
Magnetic Implants: They may also be applied in specific biomedical devices where magnetic characteristics are beneficial.
Wear-Resistant Coatings
Cutting Tools: Sputtered coatings of Fe-Co-Nb enhance the hardness and wear resistance of cutting tools, improving their performance and lifespan in machining applications.
Research and Development
These alloys are valuable in research environments for exploring new magnetic materials and advanced applications in nanotechnology and high-performance electronics.