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Nickel Boride Sputtering Targets

Nickel Boride Sputtering Targets

Nickel Boride Sputtering Targets
Product No NRE-43515
CAS No. 12007-01-1
Formula Ni2B
Molecular Weight 128.198
Purity >99.9%
Density 7.9 g/cm3
Thickness 3 mm ± 0.5mm (can be customized)
Diameter 50 mm ± 1mm (can be customized)
Shape Round
Resistivity NA
Thermal Conductivity NA

Nickel Boride Sputtering Targets

Introduction

Nickel boride (NiB) is a compound formed from nickel and boron, known for its unique properties, including high hardness, good thermal stability, and excellent wear resistance. It is often used in thin-film deposition processes, particularly in sputtering applications. Nickel boride exhibits favorable electrical and magnetic characteristics, making it suitable for various industrial applications.

Applications:

Hard Coatings: NiB is widely used for hard coatings in tools and machinery, providing enhanced wear resistance and durability, which are essential for extending the lifespan of cutting and grinding tools.

Magnetic Materials: Nickel boride can be utilized in magnetic applications due to its magnetic properties, making it suitable for sensors and other electronic components that require specific magnetic behavior.

Electrode Materials: NiB is explored as an electrode material in electrochemical applications, including batteries and fuel cells, owing to its good conductivity and catalytic properties.

Thermal Barrier Coatings: The high thermal stability of nickel boride makes it suitable for thermal barrier coatings in high-temperature applications, such as in aerospace and automotive industries.

Electrical Contacts: Due to its conductivity, NiB can be used in electrical contacts and connectors, where reliable performance is critical.

Surface Treatments: Nickel boride coatings can be applied to improve surface properties, such as hardness and corrosion resistance, in various engineering applications.

Research and Development: Nickel boride is also used in research settings to explore new materials and applications, particularly in nanotechnology and advanced coatings.

 

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