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Cr20Ni35 Nichrome Wire for Long-Lasting Hydrogen Production via Electrolysis

Cr20Ni35 Nichrome Wire for Long-Lasting Hydrogen Production via Electrolysis

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 nichrome resistance wire

nichrome wire for hydrogen electrolysis

long-lasting electrolysis resistance wire

Product Description

In the quest for sustainable and clean energy, hydrogen production via water electrolysis stands out as one of the most promising methods. Electrolysis splits water into hydrogen and oxygen using electrical energy, but the key to a successful and efficient process lies in choosing the right materials for the electrodes. This is where Cr20Ni35 Nichrome Wire comes into play.

DLX offers high-quality Cr20Ni35 Nichrome Wire specifically designed to optimize hydrogen production through electrolysis. Known for its outstanding durability, heat resistance, and corrosion resistance, this wire ensures that your electrolysis systems run at peak performance, providing you with long-lasting, efficient hydrogen generation.

Product Overview

Cr20Ni35 Nichrome Wire is a high-performance alloy composed of 20% chromium, 35% nickel, and the remainder being iron. This unique composition gives the wire excellent resistance to both heat and oxidation, making it perfect for electrolysis systems. When used in water electrolysis, this alloy wire acts as an electrode material that can endure the high electrical currents and extreme temperatures associated with the process of hydrogen generation.

Thanks to its high chromium content, Cr20Ni35 Nichrome Wire also exhibits excellent resistance to corrosion in both acidic and alkaline environments. These characteristics make it a reliable and efficient material for the demanding conditions of hydrogen production.

Performance material	Cr10Ni90	Cr20Ni80	Cr30Ni70	Cr15Ni60	Cr20Ni35	Cr20Ni30
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 Nichrome Wire can endure extreme temperatures up to 1200°C, which is essential for the high-heat environments often found in electrolysis systems.
Excellent Corrosion Resistance: The wire offers superior protection against corrosion, even in highly alkaline or acidic conditions typically found in water electrolysis processes. This ensures the longevity and effectiveness of the system over time.
Superior Conductivity: Cr20Ni35 Nichrome Wire delivers optimal electrical conductivity, allowing for efficient energy transfer during the electrolysis process, which leads to better hydrogen production.
Longevity and Durability: The combination of high-temperature resistance, corrosion resistance, and electrical conductivity gives Cr20Ni35 Nichrome Wire a longer operational life compared to other materials, reducing the need for frequent replacements.
Customizable Specifications: DLX provides customization options for wire diameters and lengths to fit your specific electrolysis system requirements.

Advantages of DLX Cr20Ni35 Nichrome Wire

Extreme Heat Endurance: With a maximum temperature rating of 1200°C, Cr20Ni35 Nichrome Wire can withstand the intense heat generated during the hydrogen production process, ensuring that your system operates reliably even under high thermal stress.
Corrosion Resistance for Long-Term Use: The alloy's resistance to both acidic and alkaline conditions makes it ideal for electrolysis systems that use electrolytes with varying pH levels, extending the lifespan of your electrodes.
Efficiency in Hydrogen Generation: Cr20Ni35 Nichrome Wire ensures efficient energy use by reducing electrical resistivity, which helps minimize energy loss and optimize hydrogen production rates.
Cost-Effective Solution: By offering a long service life and reducing the frequency of maintenance or replacements, Cr20Ni35 Nichrome Wire helps lower long-term operating costs for your electrolysis systems.
High-Performance Reliability: DLX's Cr20Ni35 Nichrome Wire undergoes strict quality control tests to ensure consistent performance, making it a reliable material choice for large-scale and small-scale electrolysis applications.
Customization to Fit Your Needs: Whether you need specific wire diameters, lengths, or packaging formats, DLX offers custom solutions to match your exact electrolysis system specifications.
Global Availability: DLX ships Cr20Ni35 Nichrome Wire worldwide, making it easy for businesses across the globe to access the materials they need for efficient hydrogen generation.
Expert Support: DLX provides expert consultation and support, ensuring you choose the best materials for your electrolysis system and that your operations run smoothly.

Industry Analysis: Hydrogen Production and the Role of Electrolysis

The increasing global demand for clean, sustainable energy has led to a significant rise in interest and investment in hydrogen production. Hydrogen, particularly green hydrogen, is a clean fuel alternative that can be used in a variety of sectors, from energy production to transportation.

Water electrolysis is a leading method for producing hydrogen, as it splits water molecules into hydrogen and oxygen using electrical energy. To optimize this process, however, it's crucial to select the right materials for the electrolyzer's electrodes, where high efficiency, durability, and resistance to corrosion are essential.

The Cr20Ni35 Nichrome Wire has proven to be one of the most effective materials for hydrogen production, particularly when paired with renewable energy sources like wind or solar power. As industries and governments continue to invest in hydrogen technologies, the demand for high-quality, durable materials like Cr20Ni35 is expected to grow significantly.

Applications of Cr20Ni35 Nichrome Wire

Water Electrolysis for Hydrogen Production: Cr20Ni35 Nichrome Wire is most commonly used in electrolysis cells for hydrogen production. Its heat and corrosion resistance make it the ideal material for electrodes in these systems.
Fuel Cells: The wire is used in various fuel cell technologies, which convert hydrogen into electricity. Its corrosion resistance and conductivity are vital for the efficiency and longevity of these cells.
Industrial Heating: Due to its high-temperature resistance, Cr20Ni35 Nichrome Wire is also widely used in heating elements for high-temperature industrial processes, such as furnaces and ovens.
Electrochemical Cells: Beyond electrolysis, Cr20Ni35 Nichrome Wire is used in electrochemical processes like electroplating, batteries, and capacitors, where its performance and corrosion resistance are essential.

DLX vs. Competitors

DLX stands out in the market for its commitment to high-quality materials and tailored solutions for your hydrogen production needs. While other suppliers may offer Nichrome wire, DLX provides Cr20Ni35 Nichrome Wire that has been specifically engineered for use in water electrolysis systems, ensuring higher efficiency, longer lifespan, and better overall performance.

What sets DLX apart is not only the quality of the materials we offer but also our dedication to customer service. We provide expert consultation to help you select the best materials for your systems, as well as fast and reliable delivery to ensure your operations continue without interruption.

Additionally, DLX offers customization options, ensuring that the Cr20Ni35 Nichrome Wire is supplied in the exact dimensions and specifications required for your specific electrolysis setup.

Frequently Asked Questions

Why is Cr20Ni35 Nichrome Wire used in hydrogen production?
Cr20Ni35 Nichrome Wire offers excellent high-temperature resistance, corrosion resistance, and electrical conductivity, all of which are essential for efficient and durable electrolysis systems.
What temperature can Cr20Ni35 Nichrome Wire withstand?
Cr20Ni35 Nichrome Wire can withstand temperatures up to 1200°C, making it ideal for high-heat environments in hydrogen production systems.
How does Cr20Ni35 Nichrome Wire improve electrolysis efficiency?
The wire's low electrical resistivity ensures minimal energy loss during the electrolysis process, enhancing the overall efficiency of hydrogen generation.
Can DLX customize the Cr20Ni35 Nichrome Wire to fit my system?
Yes, DLX offers customizable wire diameters, lengths, and packaging options to meet the specific needs of your electrolysis setup.
How long does Cr20Ni35 Nichrome Wire last in electrolysis systems?
With its resistance to heat and corrosion, Cr20Ni35 Nichrome Wire lasts longer than many other materials, reducing maintenance costs and the need for frequent replacements.
Is Cr20Ni35 Nichrome Wire used in other applications besides hydrogen production?
Yes, Cr20Ni35 Nichrome Wire is also used in fuel cells, industrial heating elements, and electrochemical cells, where its durability and conductivity are essential.
What makes DLX's Cr20Ni35 Nichrome Wire different from other suppliers?
DLX provides high-quality materials, expert consultation, and fast delivery. Our Cr20Ni35 Nichrome Wire is specifically engineered for hydrogen production, ensuring optimal performance.
How does Cr20Ni35 Nichrome Wire contribute to cost savings?
The wire's durability and efficiency reduce the need for frequent replacements, resulting in lower operational costs and increased hydrogen production efficiency.

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

Cr20Ni35 Nichrome Wire for Long-Lasting Hydrogen Production via Electrolysis

Cr20Ni35 Nichrome Wire for Long-Lasting Hydrogen Production via Electrolysis

Cr20Ni35 nichrome resistance wire

nichrome wire for hydrogen electrolysis

long-lasting electrolysis resistance wire