Nickel-16
ARIDA
2024080716
>99.99% nickel
Local Service/Online Service
Nickel Plate
Stamping, Bending, Welding, Electroplating
Electricity
JIS, GB, BS, ASTM
12 months
Electric Power Transmission
Standard Export Packing
Acoording to Client's Require to Provide Model
ARIDA
China
Solder The Nickel Sheet Onto Brass Sheet
High precision
Worldwide
Yes
| Quantity: | |
|---|---|
Main Product
Nickel Sheet for Battery Specification
| Material | nickel plate | |||
| Dimension | The thickness and dimensions can be met what customers required | |||
| OEM | Acceptable and Welcome. | |||
| Package | According the customers requirement, such as bulk bag or taping package | |||
| Physical properties | Spot welding is good, the resistance is lower, battery discharge time longer, the battery spot welding is stronger. | |||
| Advantage | The ease of machining and low electric resistance of this material make it best suited for such products as battery terminals. | |||
| Processing Method | Stamping, bending, welding, electroplating | |||
| Product high stability | material quality is stability and reliability. | |||
| Functions | this product is mainly used in manufacturing nickel-cadmium battery, nickel-hydrogen battery, lithium cell, assembled battery, as well as industries of electric tool and special lights. | |||
Welding Method: Depending on the manufacturer's specifications, this can include processes like spot welding, laser welding, or ultrasonic welding. These methods ensure a strong bond between the nickel strips and the battery cell terminals without damaging the cells.
Precision: High precision is required to ensure that each weld is consistent and secure, providing reliable electrical contact and preventing any short circuits or other malfunctions.
Nickel Strip Cell Pure Cadmium Battery Pack Welding is used in the assembly of pure cadmium battery packs, which find applications in various industries due to their high energy density, excellent cycling performance, and long service life. Here are some typical uses:
Backup Power Systems:
Pure cadmium batteries are used in uninterruptible power supply (UPS) systems and emergency backup power supplies for critical applications, such as hospitals, data centers, and telecommunications infrastructure.
Military and Aerospace:
These batteries are used in military and aerospace applications where high reliability and performance under extreme conditions are necessary, such as in defense electronics and space missions.
Portable Electronics:
Used in portable electronic devices, such as medical devices, where high-energy density and reliability are required.
Renewable Energy Storage:
Suitable for storing energy generated from renewable sources like solar panels and wind turbines, providing a stable source of power when needed.
Heavy-Duty Equipment:
Used in heavy-duty equipment, such as forklifts and industrial vehicles, where high power and durability are crucial.
Marine Applications:
Used in marine vessels and underwater equipment due to their corrosion resistance and high performance in harsh environments.
Telecommunications:
Used in telecommunications infrastructure, such as cell towers and data centers, to provide uninterrupted power supply.
Medical Devices:
Used in medical devices and equipment where reliable and consistent power supply is essential.
Research and Development:
Used in research facilities for experiments and testing where precise and stable power sources are required.
The use of nickel strips in these battery packs enhances their electrical conductivity and corrosion resistance, contributing to the overall performance and longevity of the battery. The spot welding technique ensures secure and reliable connections, making these batteries a preferred choice for high-demand applications.
Durability: The use of nickel strips and precise welding techniques enhances the battery pack's durability and lifespan.
Efficiency: Efficient current flow between cells is ensured, which improves the overall performance of the battery pack.
Safety: Proper welding minimizes the risk of electrical faults, contributing to a safer end-product.
Compact Design: The welding process allows for a compact design, making the battery pack suitable for space-constrained applications.
What is Nickel Strip Cell Pure Cadmium Battery Pack Welding?
It is the process of assembling a pure cadmium battery pack using nickel strips as current collectors. The nickel strips are spot welded to the positive or negative terminals of the cadmium cells, serving as connectors and current collectors.
Why is nickel used for the strips?
Nickel is used because it offers excellent electrical conductivity and corrosion resistance, which are crucial in the harsh chemical environment of a cadmium battery.
How does spot welding benefit the battery pack?
Spot welding provides strong and consistent bonds, ensuring reliable electrical connections within the battery pack. This contributes to the overall performance and longevity of the battery.
Where are Nickel Strip Cell Pure Cadmium Battery Packs typically used?
They are used in applications requiring reliable and high-performance power sources, such as backup power systems, military and aerospace, portable electronics, renewable energy storage, heavy-duty equipment, marine applications, telecommunications, and medical devices.
Main Product
Nickel Sheet for Battery Specification
| Material | nickel plate | |||
| Dimension | The thickness and dimensions can be met what customers required | |||
| OEM | Acceptable and Welcome. | |||
| Package | According the customers requirement, such as bulk bag or taping package | |||
| Physical properties | Spot welding is good, the resistance is lower, battery discharge time longer, the battery spot welding is stronger. | |||
| Advantage | The ease of machining and low electric resistance of this material make it best suited for such products as battery terminals. | |||
| Processing Method | Stamping, bending, welding, electroplating | |||
| Product high stability | material quality is stability and reliability. | |||
| Functions | this product is mainly used in manufacturing nickel-cadmium battery, nickel-hydrogen battery, lithium cell, assembled battery, as well as industries of electric tool and special lights. | |||
Welding Method: Depending on the manufacturer's specifications, this can include processes like spot welding, laser welding, or ultrasonic welding. These methods ensure a strong bond between the nickel strips and the battery cell terminals without damaging the cells.
Precision: High precision is required to ensure that each weld is consistent and secure, providing reliable electrical contact and preventing any short circuits or other malfunctions.
Nickel Strip Cell Pure Cadmium Battery Pack Welding is used in the assembly of pure cadmium battery packs, which find applications in various industries due to their high energy density, excellent cycling performance, and long service life. Here are some typical uses:
Backup Power Systems:
Pure cadmium batteries are used in uninterruptible power supply (UPS) systems and emergency backup power supplies for critical applications, such as hospitals, data centers, and telecommunications infrastructure.
Military and Aerospace:
These batteries are used in military and aerospace applications where high reliability and performance under extreme conditions are necessary, such as in defense electronics and space missions.
Portable Electronics:
Used in portable electronic devices, such as medical devices, where high-energy density and reliability are required.
Renewable Energy Storage:
Suitable for storing energy generated from renewable sources like solar panels and wind turbines, providing a stable source of power when needed.
Heavy-Duty Equipment:
Used in heavy-duty equipment, such as forklifts and industrial vehicles, where high power and durability are crucial.
Marine Applications:
Used in marine vessels and underwater equipment due to their corrosion resistance and high performance in harsh environments.
Telecommunications:
Used in telecommunications infrastructure, such as cell towers and data centers, to provide uninterrupted power supply.
Medical Devices:
Used in medical devices and equipment where reliable and consistent power supply is essential.
Research and Development:
Used in research facilities for experiments and testing where precise and stable power sources are required.
The use of nickel strips in these battery packs enhances their electrical conductivity and corrosion resistance, contributing to the overall performance and longevity of the battery. The spot welding technique ensures secure and reliable connections, making these batteries a preferred choice for high-demand applications.
Durability: The use of nickel strips and precise welding techniques enhances the battery pack's durability and lifespan.
Efficiency: Efficient current flow between cells is ensured, which improves the overall performance of the battery pack.
Safety: Proper welding minimizes the risk of electrical faults, contributing to a safer end-product.
Compact Design: The welding process allows for a compact design, making the battery pack suitable for space-constrained applications.
What is Nickel Strip Cell Pure Cadmium Battery Pack Welding?
It is the process of assembling a pure cadmium battery pack using nickel strips as current collectors. The nickel strips are spot welded to the positive or negative terminals of the cadmium cells, serving as connectors and current collectors.
Why is nickel used for the strips?
Nickel is used because it offers excellent electrical conductivity and corrosion resistance, which are crucial in the harsh chemical environment of a cadmium battery.
How does spot welding benefit the battery pack?
Spot welding provides strong and consistent bonds, ensuring reliable electrical connections within the battery pack. This contributes to the overall performance and longevity of the battery.
Where are Nickel Strip Cell Pure Cadmium Battery Packs typically used?
They are used in applications requiring reliable and high-performance power sources, such as backup power systems, military and aerospace, portable electronics, renewable energy storage, heavy-duty equipment, marine applications, telecommunications, and medical devices.
