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0Cr21Al6 Alloy Wire for Long-Lasting Electrolysis Hydrogen Production

0Cr21Al6 Alloy Wire for Long-Lasting Electrolysis Hydrogen Production

Nombre De La Marca:	DLX
Número De Modelo:	Alambre de aleación FeCrAl 0Cr21Al6
Cuota De Producción:	10 kilos
Condiciones De Pago:	LC, D/A, D/P, T/T, Unión Occidental
Capacidad De Suministro:	500 toneladas por mes

Información detallada

Descripción de producto

Información detallada

Lugar de origen:

China, Jiangsu

Certificación:

Ce,Rohs

Capacidad de la fuente:

500 toneladas por mes

Resaltar:

0Cr21Al6 alloy resistance wire

electrolysis hydrogen production wire

long-lasting resistance alloy wire

Descripción de producto

0Cr21Al6 Alloy Wire for Long-Lasting Electrolysis Hydrogen Production

As the demand for clean energy solutions continues to rise, hydrogen is becoming an essential part of the future energy mix. Electrolysis, which splits water into hydrogen and oxygen using electricity, is one of the most promising methods for producing green hydrogen. However, the efficiency and longevity of electrolysis systems heavily depend on the materials used. 0Cr21Al6 Alloy Wire is a high-performance material that is perfectly suited for hydrogen generation via electrolysis. Offering excellent corrosion resistance, high thermal stability, and reliable electrical properties, 0Cr21Al6 Alloy Wire is the ideal choice for long-lasting and efficient hydrogen production.

At DLX Corporation, we specialize in providing top-tier materials for the clean energy sector. Our 0Cr21Al6 Alloy Wire is engineered to perform under the demanding conditions of electrolysis, making it a critical component in optimizing hydrogen production systems for both cost-effectiveness and sustainability.

Product Overview

0Cr21Al6 Alloy Wire is an advanced FeCrAl alloy composed of iron (Fe), chromium (Cr), and aluminum (Al). With a composition of 21% chromium and 6% aluminum, this alloy provides outstanding resistance to oxidation, high-temperature stability, and corrosion resistance, making it an ideal material for electrolysis applications where harsh environments are common. This alloy wire serves as a key electrode material in water electrolysis systems, where it enables the electrochemical reaction that splits water into hydrogen and oxygen.

The alloy wire's stable electrical resistance and high thermal stability ensure that the electrolysis process is energy-efficient and produces high yields of hydrogen over long periods of time.

Parameter Comparison Table

Alloy Nomenclature Performance	1Cr13Al4	0Cr25Al5	0Cr21Al6	0Cr23Al5	0Cr21Al4	0Cr21Al6Nb	0Cr27Al7Mo2
Chemical Composition (%) - Cr	12.0-15.0	23.0-26.0	19.0-22.0	20.5-23.5	18.0-21.0	21.0-23.0	26.5-27.8
Chemical Composition (%) - Al	4.0-6.0	4.5-6.5	5.0-7.0	4.2-5.3	3.0-4.2	5.0-7.0	6.0-7.0
Chemical Composition (%) - Re	Opportune	Opportune	Opportune	Opportune	Opportune	Opportune	Opportune
Chemical Composition (%) - Fe	Rest	Rest	Rest	Rest	Rest	Rest	Rest
Max. Continuous Service Temp. of Element (°C)	950	1250	1250	1250	1100	1350	1400
Resistivity at 20°C (μΩ.m)	1.25	1.42	1.42	1.35	1.23	1.45	1.53
Density (g/cm³)	7.4	7.1	7.16	7.25	7.35	7.1	7.1
Thermal Conductivity (KJ/m.h)	52.7	46.1	63.2	60.2	46.9	46.1	--
Coefficient of Linear Expansion (αx10⁻⁶/℃)	15.4	16	14.7	15	13.5	16	16
Melting Point Approx (°C)	1450	1500	1500	1500	1500	1510	1520
Tensile Strength (N/mm²)	580-680	630-780	630-780	630-780	600-700	650-800	680-830
Elongation at Rupture (%)	>16	>12	>12	>12	>12	>12	>10
Variation of Area (%)	65-75	60-75	65-75	65-75	65-75	65-75	65-75
Repeat Bending Frequency (F/R)	>5	>5	>5	>5	>5	>5	>5
Hardness (H.B.)	200-260	200-260	200-260	200-260	200-260	200-260	200-260
Continuous Service Time (Hours/°C)	--	≥80/1300	≥80/1300	≥80/1300	≥80/1250	≥80/1350	≥80/1350
Micrographic Structure	Ferrite	Ferrite	Ferrite	Ferrite	Ferrite	Ferrite	Ferrite
Magnetic Properties	Magnetic	Magnetic	Magnetic	Magnetic	Magnetic	Magnetic	Magnetic

Available Shapes and Sizes

Shape	Size (mm)
Wire	0.05-7.5
Rod	8-50
Ribbon	(0.05-0.35)*(0.5-6.0)
Strip	(0.5-2.5)*(5-180)

Key Features

Excellent Corrosion Resistance: The high chromium (21%) and aluminum (6%) content in 0Cr21Al6 Alloy Wire provide exceptional protection against oxidation and corrosion, even in the harsh electrolytic environments of water splitting.
Stable Electrical Resistance: The wire maintains stable electrical resistance throughout its service life, which is crucial for maximizing electrolysis efficiency and minimizing energy loss during hydrogen production.
High Thermal Stability: 0Cr21Al6 Alloy Wire can withstand temperatures up to 1,550 °C, making it ideal for high-temperature electrolysis systems where heat generation is a constant challenge.
Durability and Long Service Life: The combination of corrosion resistance, high thermal stability, and strong mechanical properties ensures that 0Cr21Al6 Alloy Wire performs reliably over an extended period, reducing the need for frequent replacements and minimizing system downtime.
Customizable Sizes: DLX offers 0Cr21Al6 Alloy Wire in various diameters and lengths, allowing you to tailor the wire to your electrolysis system's specific requirements.

Advantages of Using DLX's 0Cr21Al6 Alloy Wire

Improved Electrolysis Efficiency: With its stable electrical properties and excellent corrosion resistance, 0Cr21Al6 Alloy Wire ensures that your electrolysis system operates at optimal efficiency, maximizing hydrogen production while minimizing energy loss.
Cost-Effective and Durable: The wire's extended service life and resistance to wear reduce maintenance and replacement costs, offering a long-term, cost-effective solution for large-scale hydrogen production.
Reliable Performance: 0Cr21Al6 Alloy Wire is designed to provide consistent and reliable performance in harsh environments, ensuring that your electrolysis system produces hydrogen efficiently without frequent interruptions.
Sustainable Energy Production: By enhancing the efficiency and longevity of electrolysis systems, 0Cr21Al6 Alloy Wire contributes to the production of green hydrogen, supporting the transition to sustainable and clean energy sources.
Flexibility in Application: With customizable dimensions, 0Cr21Al6 Alloy Wire can be adapted to various electrolysis systems, making it a versatile material for hydrogen generation across different industries.

Industry Analysis

The hydrogen economy is rapidly growing as the world focuses on reducing carbon emissions and transitioning to cleaner energy sources. Hydrogen, particularly green hydrogen produced via electrolysis using renewable energy, has emerged as a key solution for decarbonizing sectors such as transportation, power generation, and heavy industry.

As the demand for hydrogen grows, electrolysis systems are scaling up to meet this need. The efficiency and durability of these systems are critical for large-scale production, making advanced materials like 0Cr21Al6 Alloy Wire increasingly important. The continued development and adoption of electrolysis technologies will drive the need for high-performance materials that can withstand the high temperatures and corrosive environments of water splitting.

Applications

Hydrogen Production via Electrolysis: 0Cr21Al6 Alloy Wire is primarily used in electrolysis cells as an electrode material, where it helps facilitate the splitting of water into hydrogen and oxygen.
Fuel Cells: The wire can also be used in hydrogen fuel cells, where it acts as an electrode material to convert hydrogen into electricity for various applications, including vehicles and stationary power generation.
Energy Storage: Hydrogen produced via electrolysis can be stored for later use as a clean energy source. The wire's efficiency in electrolysis systems optimizes the production of hydrogen for energy storage applications.
Industrial Hydrogen Production: Industries such as chemical production, ammonia synthesis, and petroleum refining rely on hydrogen for various processes. 0Cr21Al6 Alloy Wire enhances the efficiency of hydrogen generation in these applications.
High-Temperature Industrial Applications: Thanks to its high thermal stability, 0Cr21Al6 Alloy Wire is also suitable for other high-temperature applications such as reactors, heat exchangers, and furnaces.

DLX's Competitive Advantage

At DLX Corporation, we are committed to providing high-performance materials for the growing clean energy sector. Our 0Cr21Al6 Alloy Wire is designed to enhance the performance, efficiency, and longevity of electrolysis systems, helping businesses optimize their hydrogen production while reducing costs.

Why Choose DLX?

Expertise in Clean Energy: With years of experience in the renewable energy sector, DLX understands the unique challenges of hydrogen production and provides solutions that address these needs.
Strict Quality Control: DLX's 0Cr21Al6 Alloy Wire undergoes rigorous testing and quality assurance processes to ensure it meets the highest standards for durability and performance.
Cost-Efficiency: By improving the efficiency and durability of electrolysis systems, 0Cr21Al6 Alloy Wire reduces operational costs, offering a long-term investment that pays off.
Sustainability Focus: DLX is dedicated to supporting the transition to a clean, sustainable energy future by providing high-quality materials that enable efficient hydrogen production and reduce reliance on fossil fuels.

Frequently Asked Questions

What makes 0Cr21Al6 Alloy Wire ideal for electrolysis? The wire's high chromium and aluminum content provides excellent resistance to corrosion and oxidation, while its high thermal stability ensures it performs reliably under high-temperature conditions in electrolysis systems.
What is the maximum temperature 0Cr21Al6 Alloy Wire can withstand? 0Cr21Al6 Alloy Wire can withstand temperatures up to 1,550 °C, making it suitable for high-temperature electrolysis applications.
How does 0Cr21Al6 Alloy Wire improve electrolysis efficiency? The wire maintains stable electrical resistance over time, minimizing energy losses and maximizing the hydrogen production rate in electrolysis systems.
Can 0Cr21Al6 Alloy Wire be customized? Yes, DLX offers customizable wire diameters and lengths to meet the specific needs of your electrolysis system.
How long does 0Cr21Al6 Alloy Wire last in electrolysis systems? Thanks to its excellent corrosion resistance and high-temperature stability, 0Cr21Al6 Alloy Wire has a long service life, reducing the need for frequent replacements.
What industries use 0Cr21Al6 Alloy Wire? The wire is used in hydrogen production systems, fuel cells, energy storage applications, and various high-temperature industrial processes.
What are the advantages of using 0Cr21Al6 Alloy Wire for hydrogen production? The wire improves electrolysis efficiency, reduces operational costs, enhances system reliability, and contributes to the sustainable production of green hydrogen.
How is the hydrogen economy expected to grow? The hydrogen economy is expected to expand significantly as global demand for clean energy increases, with electrolysis being a key technology in scaling up hydrogen production.

Etiquetas:

Aleación de Inconel

Aleación de Monel

Aleación de Hastelloy

Aleación de Incoloy

Níquel metal puro

Aleación de NiCr

Aleación de FeCrAl

Aleación de CuNi

Alambre de resistencia

Aleación de níquel da alta temperatura

Niquele el alambre de soldadura

Alambre termal del espray

Aleación de la precisión

Alambre desnudo del termopar

Alambre de la extensión del termopar

cable con aislamiento mineral

Legado de platino e iridio

Cobalto y aleación de cromo

Nitinol de aleación

espuma del metal

Aleación del metal

Serie de Calefacción

Aleación de Inconel

Aleación de Monel

Aleación de Hastelloy

Aleación de Incoloy

Níquel metal puro

Aleación de NiCr

Aleación de FeCrAl

Aleación de CuNi

Alambre de resistencia

Aleación de níquel da alta temperatura

Niquele el alambre de soldadura

Alambre termal del espray

Aleación de la precisión

Alambre desnudo del termopar

Alambre de la extensión del termopar

cable con aislamiento mineral

Legado de platino e iridio

Cobalto y aleación de cromo

Nitinol de aleación

espuma del metal

Aleación del metal

Serie de Calefacción

Detalles de los productos

0Cr21Al6 Alloy Wire for Long-Lasting Electrolysis Hydrogen Production

0Cr21Al6 Alloy Wire for Long-Lasting Electrolysis Hydrogen Production

0Cr21Al6 alloy resistance wire

electrolysis hydrogen production wire

long-lasting resistance alloy wire