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High-Performance Cr20Ni35 Alloy Wire for Water Electrolysis Hydrogen Generation

High-Performance Cr20Ni35 Alloy Wire for Water Electrolysis Hydrogen Generation

Brand Name:	DLX
Model Number:	Nichrome Wire Cr20Ni35
MOQ:	10kg
Payment Terms:	L/C,D/A,D/P,T/T,Western Union
Supply Ability:	500 tons per month

Detail Information

Product Description

Detail Information

Place of Origin:

China,Jiangsu

Certification:

Ce,Rohs

Supply Ability:

500 tons per month

Highlight:

Cr20Ni35 alloy resistance wire

hydrogen generation electrolysis wire

high-performance water electrolysis wire

Product Description

High-Performance Cr20Ni35 Alloy Wire for Water Electrolysis Hydrogen Generation

As the demand for clean energy grows, hydrogen production through water electrolysis is gaining momentum as a sustainable solution for generating green hydrogen. Water electrolysis, which splits water into hydrogen and oxygen using electricity, has become one of the most efficient methods for hydrogen generation. To ensure that electrolysis systems operate at peak efficiency, high-performance materials are critical—especially for the electrodes used in the process. Cr20Ni35 Alloy Wire has emerged as a top choice for hydrogen production due to its superior heat resistance, corrosion resistance, and electrical conductivity.

At DLX, we offer Cr20Ni35 Alloy Wire that is specially designed to optimize water electrolysis hydrogen generation. With a proven track record of durability, energy efficiency, and exceptional performance in harsh conditions, our alloy wire is a reliable and cost-effective material for industrial electrolysis applications.

Product Overview

Cr20Ni35 Alloy Wire is made from an alloy that consists of 20% chromium, 35% nickel, and 45% iron. The unique composition gives the wire its exceptional properties, including excellent resistance to high temperatures, corrosion, and oxidation. These characteristics make Cr20Ni35 Alloy Wire a perfect choice for use as electrodes in water electrolysis systems, where high electrical currents, heat, and aggressive chemical environments are prevalent.

As a material for electrolysis, Cr20Ni35 Alloy Wire ensures efficient hydrogen production, durability, and a longer service life for your electrolyzer. Its ability to maintain excellent performance in the face of extreme operating conditions makes it a trusted choice for industries looking to produce hydrogen in a cost-effective and sustainable manner.

Material Performance Comparison

Performance material	Cr10Ni90	Cr20Ni80	Cr30Ni70	Cr15Ni60	Cr20Ni35	Cr20Ni30
Composition Ni	90	Rest	Rest	55.0～61.0	34.0～37.0	30.0～34.0
Cr	10	20.0～23.0	28.0～31.0	15.0～18.0	18.0～21.0	18.0～21.0
Fe		≤1.0	≤1.0	Rest	Rest	Rest
Maximum temperature℃	1300	1200	1250	1150	1100	1100
Melting point ℃	1400	1400	1380	1390	1390	1390
Density g/cm³	8.7	8.4	8.1	8.2	7.9	7.9
Resistivity(μΩ·m,20℃)		1.09±0.05	1.18±0.05	1.12±0.05	1.00±0.05	1.04±0.05
Elongation at rupture	≥20	≥20	≥20	≥20	≥20	≥20
Specific heat(J/g.℃)	0.44	0.44	0.44	0.44	0.44	0.44
Thermal conductivity(KJ/m.h℃)		60.3	45.2	45.2	43.8	43.8
Coefficient of linear expansion (20～1000℃)		18	17	17	19	19
Micrographic structure		Austenite	Austenite	Austenite	Austenite	Austenite
Magnetic properties		Nonmagnetic	Nonmagnetic	Nonmagnetic	Nonmagnetic	Nonmagnetic

Key Features

High Temperature Resistance: Cr20Ni35 Alloy Wire can withstand temperatures up to 1200°C (2192°F), making it highly suited for hydrogen production via electrolysis, where intense heat is often generated.
Outstanding Corrosion Resistance: The alloy's high chromium and nickel content provides exceptional resistance to both acidic and alkaline environments, ensuring the wire's longevity in aggressive electrolytic conditions.
Efficient Electrical Conductivity: The low electrical resistivity of Cr20Ni35 Alloy Wire ensures efficient energy transfer, reducing energy losses during the electrolysis process and improving hydrogen production efficiency.
Long Service Life: The combination of heat resistance, corrosion resistance, and durability ensures that Cr20Ni35 Alloy Wire lasts longer in high-demand water electrolysis systems, reducing the frequency of maintenance and replacements.
Customizable Specifications: DLX offers Cr20Ni35 Alloy Wire in various diameters and lengths, allowing for customization to suit your specific electrolysis system needs.

Advantages of DLX Cr20Ni35 Alloy Wire

Superior Durability: The Cr20Ni35 Alloy Wire offers extreme heat resistance and corrosion resistance, ensuring that it performs reliably over long periods of time even in the harshest environments of hydrogen production.
Cost-Effective: By enhancing the efficiency of electrolysis and extending the service life of your electrolysis system, Cr20Ni35 Alloy Wire helps reduce operational and maintenance costs.
Efficient Hydrogen Production: Thanks to its high electrical conductivity, Cr20Ni35 Alloy Wire minimizes energy loss during the electrolysis process, resulting in higher efficiency and faster hydrogen generation.
Sustainability: Using Cr20Ni35 Alloy Wire in your electrolysis system contributes to a more sustainable production process, supporting the global shift toward clean hydrogen as a renewable energy source.
Customization: DLX can provide Cr20Ni35 Alloy Wire in specific diameters and lengths to fit your unique electrolysis system requirements, whether for small-scale or large-scale operations.
Reliable Performance: Our Cr20Ni35 Alloy Wire is manufactured to meet the highest quality standards, ensuring that your electrolysis system operates smoothly and efficiently.
Global Reach: DLX delivers Cr20Ni35 Alloy Wire to customers worldwide, ensuring fast and reliable supply for industries around the globe.
Expert Support: DLX's team of experts is available to assist you in selecting the right materials and optimizing your electrolysis system for maximum hydrogen production.

Industry Insights: Hydrogen Production and the Role of Electrolysis

Hydrogen is increasingly seen as a vital energy carrier in the transition to clean energy. Green hydrogen, produced through water electrolysis powered by renewable energy sources such as wind and solar, has the potential to decarbonize sectors such as transportation, industrial processes, and power generation. As the global demand for hydrogen continues to rise, efficient and durable materials for electrolysis systems become more crucial than ever.

Water electrolysis is one of the most promising methods for hydrogen production due to its ability to produce zero-emission hydrogen when powered by renewable energy. The growth of the hydrogen market is directly tied to the demand for high-performance materials, and Cr20Ni35 Alloy Wire stands at the forefront as an ideal solution for electrolysis systems.

As countries and industries continue to push for greater hydrogen adoption, materials like Cr20Ni35 Alloy Wire will play an essential role in scaling up hydrogen production and making green hydrogen more accessible and cost-effective.

Applications of Cr20Ni35 Alloy Wire

Water Electrolysis for Hydrogen Production: The primary application of Cr20Ni35 Alloy Wire is as an electrode material in water electrolysis systems, where its heat and corrosion resistance contribute to more efficient and durable hydrogen production.
Fuel Cells: Cr20Ni35 Alloy Wire is used in fuel cell technologies, where it helps facilitate the electrochemical reactions that convert hydrogen into electricity, making it a key component in clean energy generation.
Industrial Heating: The wire's high-temperature resistance makes it suitable for use in industrial heating elements such as furnaces, reactors, and ovens.
Electrochemical Cells: Beyond electrolysis, Cr20Ni35 Alloy Wire is used in electrochemical applications like electroplating, batteries, and capacitors, where it serves as a durable and reliable electrode material.

DLX vs. Competitors

DLX stands out in the marketplace by offering Cr20Ni35 Alloy Wire specifically engineered to optimize water electrolysis for hydrogen production. Unlike many competitors who offer generic materials, DLX's alloy wire is carefully designed to withstand the intense conditions of electrolysis, ensuring higher efficiency and longer operational life.

In addition to the superior performance of our materials, DLX provides fast, reliable delivery and expert support to help you optimize your electrolysis systems. Whether you're operating at a small scale or industrial level, DLX ensures that you get the right materials and solutions tailored to your unique needs.

Frequently Asked Questions

Why is Cr20Ni35 Alloy Wire ideal for hydrogen production?

Cr20Ni35 Alloy Wire offers exceptional heat resistance, corrosion resistance, and electrical conductivity, making it an ideal material for efficient and long-lasting water electrolysis systems.

What temperature can Cr20Ni35 Alloy Wire withstand?

Cr20Ni35 Alloy Wire can endure temperatures up to 1200°C (2192°F), making it suitable for high-temperature electrolysis processes.

How does Cr20Ni35 Alloy Wire improve electrolysis efficiency?

The wire's low electrical resistivity reduces energy losses during electrolysis, leading to higher hydrogen production efficiency and better energy utilization.

Can DLX customize the Cr20Ni35 Alloy Wire for my system?

Yes, DLX offers customizable wire diameters, lengths, and packaging options to fit your specific electrolysis system.

How long does Cr20Ni35 Alloy Wire last in electrolysis systems?

Due to its resistance to heat and corrosion, Cr20Ni35 Alloy Wire provides long-lasting performance, reducing the need for frequent replacements and maintenance.

Is Cr20Ni35 Alloy Wire used in other applications?

Yes, Cr20Ni35 Alloy Wire is also used in fuel cells, industrial heating, and electrochemical cells, where high durability and conductivity are essential.

How does DLX ensure the quality of its Cr20Ni35 Alloy Wire?

DLX's Cr20Ni35 Alloy Wire undergoes rigorous quality testing to ensure that it meets the highest performance and durability standards required for hydrogen production.

What makes DLX's Cr20Ni35 Alloy Wire different from other suppliers?

DLX offers a tailored approach to meet your specific electrolysis needs, backed by expert support, fast delivery, and high-quality materials designed for optimal performance.

Tags:

Inconel Alloy

Monel Alloy

Hastelloy Alloy

Incoloy Alloy

Pure Nickel Metal

NiCr Alloy

FeCrAl Alloy

CuNi Alloy

Resistance Wire

High Temperature Nickel Alloy

Nickel Welding Wire

Thermal Spray Wire

Precision Alloy

Thermocouple Bare Wire

Thermocouple Extension Wire

Mineral Insulated Cable

Platinum Iridium Alloy

Cobalt Chromium Alloy

Nitinol Alloy

Metal Foam

Metal Alloy

Heating Series

Inconel Alloy

Monel Alloy

Hastelloy Alloy

Incoloy Alloy

Pure Nickel Metal

NiCr Alloy

FeCrAl Alloy

CuNi Alloy

Resistance Wire

High Temperature Nickel Alloy

Nickel Welding Wire

Thermal Spray Wire

Precision Alloy

Thermocouple Bare Wire

Thermocouple Extension Wire

Mineral Insulated Cable

Platinum Iridium Alloy

Cobalt Chromium Alloy

Nitinol Alloy

Metal Foam

Metal Alloy

Heating Series

products details

High-Performance Cr20Ni35 Alloy Wire for Water Electrolysis Hydrogen Generation

High-Performance Cr20Ni35 Alloy Wire for Water Electrolysis Hydrogen Generation

Cr20Ni35 alloy resistance wire

hydrogen generation electrolysis wire

high-performance water electrolysis wire