Product Introduction

Introduction:

Nickel fiber felt is a versatile material made from high-quality nickel fibers, featuring wide-ranging applications and excellent performance characteristics. This felt-like material is composed of uniformly distributed and interconnected nickel fibers, forming an open porous structure. Nickel fiber felt exhibits high porosity, typically ranging from 60% to 90%, allowing for efficient gas and liquid transport. Its thickness can vary based on application requirements, typically ranging from 0.25 millimeters to 1 millimeters. Additionally, nickel fiber felt has a low density, typically between 0.1 grams per cubic centimeter to 0.3 grams per cubic centimeter, making it lightweight and flexible. Furthermore, nickel fiber felt demonstrates excellent temperature resistance, withstanding high operating temperatures of up to 600 degrees Celsius, and exhibits good chemical stability, making it resistant to corrosion in harsh environments.

Nickel fiber felt finds widespread applications across multiple industries. In the field of fuel cells, nickel fiber felt is used as a Gas Diffusion Layer (GDL) to enhance the performance and durability of Proton Exchange Membrane Fuel Cells (PEMFCs) and Solid Oxide Fuel Cells (SOFCs). It promotes efficient reactant distribution, enhances water management, and improves overall cell performance. Additionally, nickel fiber felt is extensively applied in redox flow batteries, electrolyzers, supercapacitors, and water treatment systems. In these applications, it serves as a GDL, optimizing electrochemical reactions, improving battery cycling performance, and providing excellent chemical stability and high surface area. 

Parameters

Material: Pure nickel fiber

Color: Light grey

Size: Customized upon request

Thickness: 0.2mm-2mm  (Usually 0.25, 0.4, 0.6, 0.8, 1.0mm)

Porosity: 60-90% (It can be customized upon request)

Shape: customized (polygon, round, ring, disc, etc.)

Features

High Porosity: Nickel fiber felt has a high porosity, typically ranging from 60% to 90%. This allows for efficient transport of gases and liquids, facilitating effective mass transfer and reactions.

Uniform Wire Diameter: By utilizing the cluster drawing technique, nickel fiber felt achieves a uniform wire diameter. This uniformity ensures consistency and stability, contributing to improved performance of the material.

Lightweight and Flexibility: Due to its low density and fibrous structure, nickel fiber felt is lightweight and flexible. This characteristic enables easy handling, shaping, and installation, enhancing its versatility in various applications.

Excellent Temperature Resistance: Nickel fiber felt exhibits outstanding temperature resistance, capable of withstanding high operating conditions. It maintains stability even at temperatures up to 600 degrees Celsius, making it suitable for high-temperature processes and demanding applications.

Applications:

Fuel Cells: Nickel fiber felt is extensively used as a GDL in proton exchange membrane fuel cells (PEMFCs) and solid oxide fuel cells (SOFCs). It facilitates efficient reactant distribution, enhances water management, and improves overall cell performance.

Redox Flow Batteries: Nickel fiber felt is employed as a GDL in redox flow batteries, enabling efficient electrolyte flow and maintaining consistent electrode performance.

Electrolyzers: It is utilized as a GDL in electrolyzers to enhance the electrochemical reactions during hydrogen production.

Supercapacitors: Nickel fiber felt finds applications as a current collector and GDL in supercapacitors, enabling high power density and rapid charge/discharge cycles.

Water Treatment: It is used in electrochemical water treatment systems, such as electrocoagulation and electrochemical oxidation, due to its excellent chemical stability and high surface area.

Manufacturing flow

Nickel wire→Cluster drawing→Nickel fiber→Fiber shear→Air-laid→Sintering→Nickel fiber felt

In the overall process, cluster drawing is a crucial step in the preparation of nickel fiber. Compared to other methods like melt spinning, mechanical cutting, and monofilament drawing, the cluster drawing technique offers several advantages, including uniform wire diameter, ease of continuous production, and cost-effectiveness. This method has successfully addressed various technical challenges associated with the cluster drawing process, enabling the production of nickel fibers with different wire diameters ranging from 6 μm to 40 μm. This flexibility allows for the production of nickel fiber felts with diverse properties, catering to specific requirements.

To achieve uniform fiber lengths, a specialized cutting machine is employed to shear the fibers into desired specifications, such as 33 mm in length. This cutting process ensures consistent shearing lengths and high production efficiency. The nickel fibers are then arranged into a net using the air flow method, utilizing an imported felt laying unit. By carefully adjusting numerous complex process parameters, the resulting nickel fiber net exhibits excellent uniformity without any flaws such as bundled fibers or fiber agglomeration. Moreover, the weight of each individual fiber net can be precisely controlled as per the specific needs.

What advantages does nickel fiber felt offer over other GDL materials?

Nickel fiber felt provides high porosity, good gas diffusion properties, and excellent temperature resistance. It also exhibits chemical stability and high mechanical flexibility, making it suitable for various demanding applications.

How can nickel fiber felt improve the performance of fuel cells?

Nickel fiber felt promotes uniform gas distribution, reduces reactant crossover, and enhances water management within the fuel cell. This leads to improved performance, higher efficiency, and prolonged cell lifespan.

Is nickel fiber felt compatible with corrosive electrolytes?

Yes, nickel fiber felt demonstrates good chemical stability and is resistant to corrosion from acidic or alkaline electrolytes, making it suitable for use in various electrochemical systems.

Package and Shipment

1. Sintered Filters are usually packed in cartons, wrapped in soft film, and fixed in a box filled with industrial foam cotton, and the outer baler is packed with plastic bags with no damage during transportation.

2. Wooden box export packaging can also be customized. The foam cotton can be filled and fixed, the external box is sealed, the bottom is specified, the whole packaging is processed, and the goods can be delivered to the designated place of the customer without damage.

Contact Us

TEL: +8619992203758

FAX: 0917-3873009

Email:karrykang@bjygti.com

Company: TOPTITECH —— BAOJI YINGGAOCO., LTD

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ADD: No. 195, Gaoxin Avenue, High-tech Development Zone, Baoji City, Shaanxi, China