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0Cr21Al6 FeCrAl Wire for Superior Hydrogen Generation via Electrolysis

0Cr21Al6 FeCrAl Wire for Superior Hydrogen Generation via Electrolysis

Nome da marca:	DLX
Número do modelo:	Fio de liga FeCrAl 0Cr19Al3
MOQ:	10kg
Condições de pagamento:	L/C,D/A,D/P,T/T,Western Union
Capacidade de abastecimento:	500 toneladas por mês

Informações pormenorizadas

Descrição do produto

Informações pormenorizadas

Lugar de origem:

China, Jiangsu

Certificação:

Ce,Rohs

Habilidade da fonte:

500 toneladas por mês

Destacar:

FeCrAl resistance wire for electrolysis

0Cr21Al6 hydrogen generation wire

FeCrAl wire with high resistance

Descrição do produto

0Cr21Al6 FeCrAl Wire for Superior Hydrogen Generation via Electrolysis

The transition to sustainable energy is accelerating, with hydrogen emerging as a clean, versatile fuel playing an increasingly vital role. Electrolysis, the process of using electricity to split water into hydrogen and oxygen, represents a key method for producing green hydrogen. To achieve optimal efficiency and reliability in electrolysis systems, advanced materials capable of withstanding demanding conditions are essential. 0Cr21Al6 FeCrAl Wire is engineered for high-performance hydrogen generation, offering exceptional corrosion resistance, high thermal stability, and consistent electrical conductivity—critical attributes for efficient, long-term electrolysis operations.

At DLX Corporation, we specialize in providing premium materials for the clean energy sector. Our 0Cr21Al6 FeCrAl Wire is specifically designed to enhance the performance and durability of hydrogen production systems, ensuring reliable, cost-effective, and efficient green hydrogen generation.

Product Overview

0Cr21Al6 FeCrAl Wire is a high-performance alloy combining iron (Fe), chromium (Cr), and aluminum (Al) with a composition of 21% chromium and 6% aluminum. This unique formulation delivers outstanding corrosion resistance and high-temperature stability, essential for electrolysis systems exposed to intense heat and corrosive electrolytes. The wire's stable electrical properties enable efficient energy transfer, ensuring hydrogen production with minimal energy loss.

As an electrode material in electrolysis cells, 0Cr21Al6 FeCrAl Wire facilitates the electrochemical reaction required to split water into hydrogen and oxygen. Its reliable performance under harsh conditions makes it ideal for large-scale and industrial hydrogen production applications.

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

Exceptional Corrosion Resistance: The high chromium and aluminum content (21% Cr, 6% Al) provides outstanding resistance to oxidation and corrosion, ensuring optimal performance in aggressive electrolytic environments.
Stable Electrical Resistance: Maintains consistent electrical resistance, crucial for maximizing electrolysis efficiency and reducing operational costs in hydrogen production.
High Thermal Stability: With a melting point of 1,550 °C, withstands extreme temperatures in electrolysis systems while retaining structural integrity and performance.
Durability and Longevity: Resistance to oxidation, corrosion, and high temperatures extends service life, providing reliable performance for long-term hydrogen generation systems.
Customizable Dimensions: DLX offers flexible wire diameter and length options to tailor the wire to specific electrolysis system requirements.

Advantages of Using DLX's 0Cr21Al6 FeCrAl Wire

Enhanced Electrolysis Efficiency: Stable electrical resistance and excellent corrosion resistance ensure efficient energy conversion into hydrogen, maximizing output while minimizing waste.
Reduced Maintenance and Operational Costs: Exceptional durability reduces frequent replacement needs, lowering maintenance costs and ensuring smooth system operation with minimal downtime.
Long-Term Reliability: Resistance to high temperatures and corrosive environments provides extended service life, making it cost-effective for large-scale hydrogen production.
Superior Quality: Rigorous testing and quality control processes ensure the wire meets highest performance standards.
Sustainable Energy Solutions: Supports green hydrogen production, reducing dependence on fossil fuels and promoting clean energy technologies.

Industry Analysis

The global hydrogen economy is experiencing rapid growth, driven by increasing demand for clean, renewable energy. Hydrogen, particularly green hydrogen produced through renewable-powered electrolysis, represents a key solution for decarbonizing transportation, heavy industry, and power generation sectors. As more countries and companies commit to net-zero emissions, hydrogen's role in achieving these goals will continue to expand.

For electrolysis systems to meet growing demand, they must operate at higher efficiencies and larger scales. This requires advanced materials like 0Cr21Al6 FeCrAl Wire, which can withstand harsh operating conditions of high-temperature electrolysis while maintaining stable performance over time. As hydrogen production scales up, the need for durable, high-performance materials will increase, making this wire a critical component in the hydrogen economy's success.

Applications

Hydrogen Production via Electrolysis: Primary use as electrode material in electrolysis cells, facilitating water splitting into hydrogen and oxygen for green hydrogen production.
Fuel Cells: Serves as electrode material in hydrogen fuel cells, converting hydrogen into electricity for vehicles and stationary energy systems.
Energy Storage: Enables efficient hydrogen production for storage and later use as clean energy source.
Industrial Hydrogen Applications: Used in chemical production, petroleum refining, and ammonia synthesis for hydrogen requirements.
High-Temperature Industrial Systems: Suitable for reactors and furnaces due to high-temperature resistance.

DLX's Competitive Advantage

At DLX Corporation, we understand hydrogen industry needs and have developed our 0Cr21Al6 FeCrAl Wire to meet these requirements. By offering superior performance in harsh electrolysis environments, we help businesses optimize hydrogen production systems, reduce costs, and maximize efficiency.

Why Choose DLX?

Expertise in Hydrogen Technologies: Long history of providing high-quality materials for renewable energy sector, committed to advancing hydrogen production technologies.
Quality Assurance: Every batch undergoes strict quality control to ensure highest performance and reliability standards.
Cost-Efficient Solutions: Extends electrolysis system lifespan and improves energy efficiency, reducing operational costs over time.
Sustainability Commitment: Dedicated to supporting clean energy transition by providing materials that enable efficient, large-scale hydrogen production and contribute to global carbon reduction goals.

Frequently Asked Questions

What makes 0Cr21Al6 FeCrAl Wire ideal for electrolysis?
The wire's high chromium and aluminum content provide excellent oxidation and corrosion resistance, while its high thermal stability ensures reliable performance in harsh electrolysis cell conditions.
What is the maximum temperature 0Cr21Al6 FeCrAl Wire can withstand?
0Cr21Al6 FeCrAl Wire can withstand temperatures up to 1,550 °C, making it suitable for high-temperature electrolysis applications.
How does 0Cr21Al6 FeCrAl Wire improve electrolysis efficiency?
The wire maintains stable electrical resistance, reducing energy loss and optimizing the electrolysis process for more efficient hydrogen production.
Can 0Cr21Al6 FeCrAl Wire be customized?
Yes, DLX offers customizable wire diameters and lengths to suit specific electrolysis system requirements.
How long does 0Cr21Al6 FeCrAl Wire last in electrolysis systems?
Due to corrosion resistance and high thermal stability, the wire has a long service life, reducing frequent replacement needs.
What other applications can 0Cr21Al6 FeCrAl Wire be used for?
Suitable for fuel cells, energy storage systems, and other high-temperature industrial processes.
What makes DLX's 0Cr21Al6 FeCrAl Wire stand out?
DLX's wire is designed for superior electrolysis system performance, offering excellent durability, corrosion resistance, and thermal stability for optimal long-term hydrogen production.
How is the hydrogen economy expected to evolve?
The hydrogen economy is expected to expand rapidly as clean energy demand increases, with electrolysis serving as key technology for scaling hydrogen production to meet global energy needs.

Tags:

Liga de Inconel

Liga de Monel

Liga de Hastelloy

Liga de Incoloy

Metal puro do níquel

Liga de NiCr

Liga de FeCrAl

Liga de CuNi

Fio de resistência

Liga de níquel de alta temperatura

Níquel o fio de solda

Fio térmico do pulverizador

Liga da precisão

Fio desencapado do par termoelétrico

Fio da extensão do par termoelétrico

cabo isolado mineral

Liga de platina de irídio

Cobalto e liga de cromo

Nitinol ligado

espuma do metal

Liga do metal

Série de aquecimento

Liga de Inconel

Liga de Monel

Liga de Hastelloy

Liga de Incoloy

Metal puro do níquel

Liga de NiCr

Liga de FeCrAl

Liga de CuNi

Fio de resistência

Liga de níquel de alta temperatura

Níquel o fio de solda

Fio térmico do pulverizador

Liga da precisão

Fio desencapado do par termoelétrico

Fio da extensão do par termoelétrico

cabo isolado mineral

Liga de platina de irídio

Cobalto e liga de cromo

Nitinol ligado

espuma do metal

Liga do metal

Série de aquecimento

Detalhes dos produtos

0Cr21Al6 FeCrAl Wire for Superior Hydrogen Generation via Electrolysis

0Cr21Al6 FeCrAl Wire for Superior Hydrogen Generation via Electrolysis

FeCrAl resistance wire for electrolysis

0Cr21Al6 hydrogen generation wire

FeCrAl wire with high resistance