Products Description

Pure nickel wire plays an important role in the electronics industry. As a high-purity metal material, pure nickel wire has excellent electrical and thermal conductivity, as well as excellent corrosion resistance. These properties make pure nickel wire one of the ideal materials for electronic device manufacturing.

First, pure nickel wire is often used as electronic wire. Due to its excellent electrical conductivity, pure nickel wire can efficiently conduct current and signals, connecting various electronic components and circuit boards. They play a key connection and transmission role in electronic devices.

Secondly, pure nickel wire has good electromagnetic shielding properties. In electronic products, electromagnetic interference is a common problem. Pure nickel wire can produce electromagnetic shielding materials and components, which can effectively reduce the impact of electromagnetic interference on electronic equipment and improve the performance and stability of the equipment.

Dimension:

The thickness and dimensions can be met what customers required.

Advantage

Excellent electrical conductivity: Pure nickel wire has good electrical conductivity and its resistivity is relatively low, allowing current to pass smoothly. This makes pure nickel wire very effective as wires and connectors in electronic circuits.

Good thermal conductivity: Pure nickel wire has high thermal conductivity and can conduct heat quickly. This is very important for heat dissipation of electronic components and can help maintain a stable operating temperature of the components.

Corrosion resistance: Pure nickel wire has good corrosion resistance and can resist corrosion from some chemical media and extend the service life of components.

Mechanical strength: Pure nickel wire has high mechanical strength and flexibility, and can be easily bent, rolled and formed to adapt to the needs of electronic devices of different shapes and structures.

Parameter

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Excellent electrical conductivity

Low Resistivity: Pure nickel wire has a relatively low resistivity of about 6.9 microohm·cm (20 degrees Celsius), which means it is able to provide good current conduction capabilities. The lower resistivity reduces the energy loss when electric current passes through the pure nickel wire, ensuring that the electric current can be transmitted efficiently.

High conductivity: Due to the lattice structure and electron arrangement characteristics of pure nickel wire, it is highly conductive. This allows the pure nickel wire to transport electrons quickly, promoting the flow of electricity.

CONSISTENT CONDUCTIVITY: Pure nickel wire has uniform conductivity throughout the material, meaning electrical current can be transmitted evenly throughout any part of the nickel wire. This is important for applications in electronic devices that require stable current transfer.

Conductive properties over a wide temperature range: Pure nickel wire maintains good electrical conductivity over a wide temperature range. This makes it suitable for electronic devices operating in different temperature environments.

Low temperature drift: Pure nickel wire has low temperature drift performance, that is, its resistance value changes less when the temperature changes. This is important for applications that require precise resistance values, such as in precision measurement and control circuits.

The excellent conductive properties of pure nickel wire make it an ideal choice in the electronics industry for connecting electronic components, transmitting current and signals, and enabling efficient electronic device operation.

Influencing factors

Pure nickel wire has excellent electrical conductivity properties, which can be attributed to the following reasons:

Metal properties: Pure nickel is a metal, and metals have good electrical conductivity. In metals, electrons flow freely because the atoms of the metal are held together in metallic bonds. This structure allows electrons to move freely through the metal, allowing for high conductivity.

Electronic configuration: The electronic configuration properties of pure nickel also contribute to its excellent conductive properties. In an atom, the outer electron structure of a nickel atom is [Ar] 3d^8 4s^2, in which the number of electrons in the 3d layer is 8. This arrangement allows the 3d electrons in nickel atoms to move relatively freely between atoms, thereby promoting electron conduction.

Lattice Structure: The lattice structure of pure nickel also plays an important role in its conductive properties. Pure nickel adopts a face-centered cubic lattice structure in which nickel atoms are tightly packed in the crystal structure. This structure makes the transmission path of electrons in the crystal lattice more continuous and smooth, reducing the possibility of electrons encountering obstacles in the structure, thereby improving conductive properties.

Premium Purity: Pure nickel wire is typically of high purity, exceeding 99%. High-purity nickel material reduces the interference of impurities and other materials on electronic conduction, making the conductive performance more excellent.