Battery nickel foam is a porous structure made from high-purity nickel material, widely used as an electrode material in batteries. Its three-dimensional open-cell structure provides greater specific surface area and higher electron and ion conductivity for battery reactions, significantly enhancing overall battery performance. Due to its outstanding electrochemical properties, battery nickel foam is a critical component in various battery types, including nickel-metal hydride (Ni-MH), nickel-cadmium (Ni-Cd), and lithium-ion batteries.

Nickel Foam for Button Batteries is a high-performance material specifically designed for button cell batteries, made from high-purity nickel through a specialized foaming process. Nickel foam features a unique three-dimensional network structure, high porosity, and excellent conductivity, making it an ideal substrate for button battery electrodes. With its lightweight nature, high specific surface area, and outstanding chemical stability, nickel foam significantly enhances the capacity, energy density, and charge/discharge efficiency of button batteries.

Nickel foam for hydrogen production is a highly efficient electrochemical catalyst material made of high-purity nickel with a three-dimensional porous structure and an extremely high specific surface area. This nickel foam is widely used as a catalyst or catalyst support in hydrogen production processes such as water electrolysis and reforming. Its unique physical and chemical properties provide excellent catalytic activity and durability in hydrogen production.

Shaped nickel foam is a specially processed nickel foam material with non-standard shapes. It retains the excellent properties of nickel foam, such as porous structure, high electrical conductivity, and chemical stability, while being customized to meet complex geometric requirements for various application scenarios. Shaped nickel foam can be made into various shapes, including bends, curves, perforations, etc., to adapt to specific devices and applications. It is widely used in batteries, catalysis, filtration, and heat dissipation fields.

Ultra-Thick Nickel Foam is a porous material made from high-purity nickel using a specialized foaming process, with thickness typically exceeding 10 mm. It is designed for applications requiring greater mechanical strength and longer service life. Compared to standard nickel foam, ultra-thick nickel foam retains excellent electrical conductivity, chemical stability, and high porosity, while adding improved strength and stability. It is widely used in high-performance batteries, electromagnetic shielding, catalyst supports, and thermal management applications.

Ultra-thin nickel foam is a high-tech new material made from high-purity nickel through a special process. It features a highly porous, ultra-thin, and lightweight structure. The thickness of this material can be controlled at the micron level, providing excellent electrical conductivity, mechanical strength, and chemical stability, making it crucial for a wide range of applications.

• Mesh Size: 1 - 400 mesh

• Material: Pure nickel wire (grades N2, N4, N6, N8)

• Dimensions:

• Width: 0.05m - 3.5m

• Length: 1m - 210m

• Nickel Purity: ≥99.8%

• Wire Diameter: Range from 0.03mm to 1mm (customizable based on mesh size)

Nickel felt is a metal fiber material made from high-purity nickel fibers through a non-woven process, featuring a three-dimensional porous structure and a very high specific surface area. Nickel felt retains the high electrical conductivity, excellent corrosion resistance, and good mechanical properties of nickel, while also being lightweight, breathable, and flexible. Its unique structure makes nickel felt highly effective in applications such as battery electrodes, fuel cells, catalyst supports, high-temperature filtration, and electromagnetic shielding, making it a multifunctional, high-performance material.

Nickel expanded mesh is a metal mesh material made from high-purity nickel plates through stamping or expanding processes, featuring uniformly distributed mesh holes and a strong sheet-like structure. Nickel expanded mesh combines the excellent properties of nickel—such as high electrical conductivity, outstanding corrosion resistance, and good mechanical strength—while providing good permeability and mechanical support due to its unique structural design. Nickel expanded mesh is widely used in filtration, battery current collectors, catalyst supports, architectural decoration, heat dissipation management, and more.

Nickel perforated mesh is a metal material made by precisely perforating high-purity nickel sheets. It retains the excellent properties of nickel, such as high electrical conductivity, excellent corrosion resistance, and mechanical strength, while its evenly distributed holes provide good permeability and multifunctionality. Nickel perforated mesh is widely used in filtration, battery manufacturing, chemical processing, construction, heat dissipation, and protective applications across various industrial and commercial fields.

Nickel mesh for hydrogen production is a porous metal material made of high-purity nickel, specifically designed for electrochemical applications such as water electrolysis for hydrogen production. It has excellent electrical conductivity, corrosion resistance, and mechanical strength. The mesh structure provides a large specific surface area, which helps enhance the efficiency of electrolysis, making it an ideal electrode material for hydrogen production. Nickel mesh is widely used in water electrolysis, fuel cells, and other electrochemical reaction fields.

Battery nickel mesh is a high-performance porous metal material specifically designed for the production of battery electrodes. It features excellent conductivity, corrosion resistance, and structural stability. Used as a current collector in electrodes, nickel mesh provides effective electronic conduction and facilitates the uniform adhesion of electrode materials, enhancing electrochemical reactions. Due to its unique properties, battery nickel mesh is widely used in nickel-metal hydride (Ni-MH), nickel-cadmium (Ni-Cd), lithium-ion batteries, and other types of batteries, improving energy density, charge-discharge efficiency, and cycle life.

Knitted nickel mesh is a mesh-like metal material made from high-purity nickel wires through a knitting process. It features excellent flexibility, electrical conductivity, and corrosion resistance. Due to its unique knitted structure, knitted nickel mesh has three-dimensional porosity and good mechanical properties, making it perform exceptionally well in fields such as electrochemistry, filtration, gas-liquid separation, shielding, and shock absorption. Knitted nickel mesh combines the excellent properties of traditional nickel wire mesh with the flexibility of the knitting process, making it an ideal choice for demanding environments and multifunctional applications.

Nickel crimped mesh is a metallic mesh material made by interweaving high-purity nickel wires and processing them through a crimping technique. The high-purity nickel wires are woven into a stable structure through a unique crimping process, creating a durable and elastic mesh. Nickel crimped mesh combines the excellent properties of nickel, such as high electrical conductivity, outstanding corrosion resistance, and mechanical strength. It is widely used in chemical filtration, battery current collectors, construction structures, sieving, classification, and protective applications across various industries.

Nickel sintered mesh is a porous metal material made from multiple layers of high-purity nickel mesh through a high-temperature sintering process. The sintering process permanently bonds the metal mesh layers together, forming a solid and stable multilayer structure. Nickel sintered mesh combines the high electrical conductivity, excellent corrosion resistance, and superior mechanical properties of nickel, making it suitable for demanding industrial environments such as filtration, catalysis, battery applications, and high-temperature gas treatment.

Iron-Nickel Foam is a porous material made from an iron and nickel alloy through a foaming process. It features excellent mechanical strength, conductivity, magnetic properties, and a large specific surface area. Combining the mechanical properties of iron with the corrosion resistance of nickel, iron-nickel foam is a highly functional material used in battery electrodes, electromagnetic shielding, catalyst supports, hydrogen production, and energy absorption materials. With its stable structure, low density, and high porosity, iron-nickel foam has found extensive applications in renewable energy and environmental technologies.

Nickel Foam is a high-porosity metal material with excellent electrical conductivity, corrosion resistance, and lightweight properties. It is widely used in battery electrodes, catalyst carriers, filtration systems, electromagnetic shielding, and hydrogen production. We provide nickel foam in various pore sizes and thicknesses to meet diverse industrial requirements.

Key Features:

✅ High Porosity – Uniform structure with excellent permeability
✅ Superior Electrical Conductivity – Ideal for batteries, supercapacitors, and hydrogen electrolysis
✅ Corrosion Resistance – Suitable for harsh environments, enhancing material stability
✅ Lightweight & Durable – Ensures long-lasting performance
✅ High Surface Area – Promotes catalytic reactions and increases hydrogen production efficiency

Nickel Foam is a high-porosity metal material with excellent electrical conductivity, corrosion resistance, and lightweight properties. It is widely used in battery electrodes, catalyst carriers, filtration systems, electromagnetic shielding, and hydrogen production. We provide nickel foam in various pore sizes and thicknesses to meet diverse industrial requirements.

Key Features:

✅ High Porosity – Uniform structure with excellent permeability
✅ Superior Electrical Conductivity – Ideal for batteries, supercapacitors, and hydrogen electrolysis
✅ Corrosion Resistance – Suitable for harsh environments, enhancing material stability
✅ Lightweight & Durable – Ensures long-lasting performance
✅ High Surface Area – Promotes catalytic reactions and increases hydrogen production efficiency

Nickel expanded mesh is a metal mesh material made from high-purity nickel plates through stamping or expanding processes, featuring uniformly distributed mesh holes and a strong sheet-like structure. Nickel expanded mesh combines the excellent properties of nickel—such as high electrical conductivity, outstanding corrosion resistance, and good mechanical strength—while providing good permeability and mechanical support due to its unique structural design. Nickel expanded mesh is widely used in filtration, battery current collectors, catalyst supports, architectural decoration, heat dissipation management, and more.

Nickel perforated mesh is a metal material made by precisely perforating high-purity nickel sheets. It retains the excellent properties of nickel, such as high electrical conductivity, excellent corrosion resistance, and mechanical strength, while its evenly distributed holes provide good permeability and multifunctionality. Nickel perforated mesh is widely used in filtration, battery manufacturing, chemical processing, construction, heat dissipation, and protective applications across various industrial and commercial fields.