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0Cr21Al4 FeCrAl Wire for Hydrogen Production Systems

0Cr21Al4 FeCrAl Wire for Hydrogen Production Systems

Наименование марки:	DLX
Номер модели:	Проволока из сплава FeCrAl 0Cr21Al4
МОК:	10 кг
Условия оплаты:	Л/К, Д/А, Д/П, Т/Т, западное соединение
Способность к поставкам:	500 тонн в месяц

Подробная информация

Характер продукции

Подробная информация

Место происхождения:

Китай, Цзянсу

Сертификация:

Ce,Rohs

Поставка способности:

500 тонн в месяц

Выделить:

FeCrAl resistance wire for hydrogen production

0Cr21Al4 high-temperature resistance wire

hydrogen system FeCrAl heating wire

Характер продукции

0Cr21Al4 FeCrAl Wire for Hydrogen Production Systems

0Cr21Al4 FeCrAl Resistance Wire is a high-performance wire composed of iron (Fe), chromium (Cr), and aluminum (Al). The alloy's high chromium and aluminum content provides exceptional resistance to oxidation and corrosion, making it ideal for use in high-temperature electrolysis applications. As hydrogen production systems often operate under extreme conditions, the wire's thermal stability, resistance to corrosion, and ability to maintain stable electrical resistance make it perfect for this purpose.

The wire is used as an electrode material in electrolysis cells, where it plays a critical role in splitting water into hydrogen and oxygen when an electrical current is passed through it. With 0Cr21Al4 FeCrAl Wire, electrolysis systems can achieve higher efficiency, improved durability, and more consistent performance.

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 in 0Cr21Al4 FeCrAl Wire gives it excellent resistance to oxidation and corrosion, making it suitable for the aggressive electrolytic environment of hydrogen production systems.
Stable Electrical Resistance: The wire maintains consistent electrical resistance throughout its lifecycle, ensuring efficient energy transfer and optimized hydrogen production.
High Thermal Stability: With a melting point of 1,550 °C, this alloy wire can withstand the high temperatures encountered in electrolysis cells, where the electrolysis process generates heat.
Customizable Dimensions: DLX provides flexibility in wire diameters and lengths, allowing for the wire to be tailored to your specific hydrogen production system needs.
Long-Term Durability: Thanks to its outstanding resistance to oxidation and corrosion, 0Cr21Al4 FeCrAl Wire offers a long service life, reducing the need for frequent replacements and lowering operational costs.

Advantages of Using DLX's 0Cr21Al4 FeCrAl Wire

Enhanced Efficiency: The wire's superior electrical and thermal properties help improve the overall efficiency of the electrolysis process, leading to more hydrogen production with less energy input.
Increased System Longevity: The excellent corrosion and oxidation resistance of 0Cr21Al4 FeCrAl Wire extends the lifespan of hydrogen production systems, reducing the frequency of maintenance and replacement.
Cost-Effective Performance: By improving the durability and efficiency of electrolysis systems, 0Cr21Al4 FeCrAl Wire offers significant long-term cost savings, making it a great investment for businesses involved in hydrogen production.
High-Quality Manufacturing: Every batch of 0Cr21Al4 FeCrAl Wire is rigorously tested to meet industry standards, ensuring that you receive a reliable and high-performance product every time.
Sustainability Commitment: By supporting the production of green hydrogen, DLX's alloy wire plays a key role in reducing reliance on fossil fuels and promoting clean, renewable energy sources.

Industry Analysis

The global hydrogen economy is expected to see significant growth as industries and governments push for cleaner energy solutions. Hydrogen production through electrolysis—powered by renewable energy sources—offers a carbon-neutral alternative to conventional hydrogen production methods that rely on fossil fuels.

As the demand for hydrogen grows, the need for efficient, high-performance electrolysis systems becomes even more critical. The role of advanced materials like 0Cr21Al4 FeCrAl Wire will be crucial in optimizing these systems, allowing for higher throughput and longer system lifespans. This demand will continue to rise as countries adopt more ambitious decarbonization goals and expand their hydrogen infrastructure.

Hydrogen production from electrolysis is not only essential for clean energy but is also increasingly important in industries such as transportation (hydrogen fuel cells), energy storage, and industrial processes. The rise of these applications presents a growing market for high-quality materials like 0Cr21Al4 FeCrAl Wire, which will continue to play a pivotal role in the development of the hydrogen economy.

Applications

Hydrogen Production via Electrolysis: The primary application of 0Cr21Al4 FeCrAl Wire is in electrolysis systems used to split water into hydrogen and oxygen, providing a clean, renewable source of hydrogen gas.
Fuel Cells: 0Cr21Al4 FeCrAl Wire is used in fuel cell technology, where hydrogen is converted into electricity through an electrochemical reaction.
Energy Storage: Hydrogen generated through electrolysis can be stored and used as an energy source when needed. The wire's role in electrolysis systems makes it a critical component in renewable energy storage solutions.
Chemical Industry: Hydrogen produced via electrolysis is used in various chemical processes, including ammonia production and petroleum refining. 0Cr21Al4 FeCrAl Wire ensures the efficient generation of hydrogen for these applications.
High-Temperature Industrial Processes: The wire's high thermal stability makes it suitable for use in other high-temperature industrial applications, such as heat exchangers and reactors.

DLX's Competitive Advantage

DLX Corporation is a trusted name in the alloy trade, known for providing high-quality materials for a wide range of industries. When you choose DLX's 0Cr21Al4 FeCrAl Wire, you're selecting a reliable, long-lasting solution designed to optimize the efficiency of your hydrogen production systems.

Why Choose DLX?

Expert Solutions: With years of expertise in the alloy industry, DLX understands the unique needs of hydrogen production systems and offers tailored solutions to help you maximize system efficiency.
Consistent Quality: We ensure that every batch of 0Cr21Al4 FeCrAl Wire meets the highest industry standards through rigorous quality control and testing.
Cost Efficiency: Our wire offers excellent value for money by improving system performance and reducing maintenance costs, making it a smart long-term investment for hydrogen production businesses.
Sustainability Focus: DLX is committed to supporting the transition to clean energy by providing materials that enable efficient, sustainable hydrogen production.

Frequently Asked Questions

What makes 0Cr21Al4 FeCrAl Wire suitable for hydrogen production?

Its high resistance to oxidation and corrosion, coupled with its thermal stability, makes it ideal for high-temperature electrolysis environments where water is split into hydrogen and oxygen.

How does 0Cr21Al4 FeCrAl Wire help improve electrolysis efficiency?

The wire maintains consistent electrical resistance and efficient heat management, improving energy transfer during electrolysis and boosting hydrogen production efficiency.

What is the maximum temperature 0Cr21Al4 FeCrAl Wire can withstand?

0Cr21Al4 FeCrAl Wire can withstand temperatures up to 1,550 °C, making it suitable for the high-temperature conditions found in electrolysis systems.

Can the wire be customized to fit specific applications?

Yes, DLX offers customizable wire diameters and lengths to meet the precise requirements of your hydrogen production system.

How does 0Cr21Al4 FeCrAl Wire compare to other materials used in electrolysis?

Compared to other materials, 0Cr21Al4 FeCrAl Wire offers superior oxidation resistance, high thermal stability, and consistent electrical performance, making it the optimal choice for hydrogen production systems.

How long does 0Cr21Al4 FeCrAl Wire last in hydrogen production systems?

Due to its excellent corrosion resistance and thermal stability, 0Cr21Al4 FeCrAl Wire offers a long service life, minimizing the need for frequent replacements.

What industries use 0Cr21Al4 FeCrAl Wire?

0Cr21Al4 FeCrAl Wire is primarily used in hydrogen production, but it is also utilized in fuel cell technology, renewable energy storage, and various high-temperature industrial applications.

What are the key trends in hydrogen production via electrolysis?

The growing demand for clean hydrogen, driven by the global push for renewable energy, is accelerating the adoption of electrolysis. 0Cr21Al4 FeCrAl Wire is key to improving the efficiency and scalability of these systems.

Теги:

Сплав Inconel

Сплав Monel

Сплав Hastelloy

Сплав Incoloy

Чистый металл никеля

Сплав NiCr

Сплав FeCrAl

Сплав CuNi

Провод сопротивления

Высокотемпературный сплав никеля

Провод заварки никеля

Термальный провод брызг

Сплав точности

Голая электродная проволка термопары

Провод расширения термопары

кабель с минеральной изоляцией

Сплав иридия платины

Сплав кобальта и хрома

Нитинол сплав

пена металла

Сплав металла

Серия отопления

Сплав Inconel

Сплав Monel

Сплав Hastelloy

Сплав Incoloy

Чистый металл никеля

Сплав NiCr

Сплав FeCrAl

Сплав CuNi

Провод сопротивления

Высокотемпературный сплав никеля

Провод заварки никеля

Термальный провод брызг

Сплав точности

Голая электродная проволка термопары

Провод расширения термопары

кабель с минеральной изоляцией

Сплав иридия платины

Сплав кобальта и хрома

Нитинол сплав

пена металла

Сплав металла

Серия отопления

Подробная информация о продукции

0Cr21Al4 FeCrAl Wire for Hydrogen Production Systems

0Cr21Al4 FeCrAl Wire for Hydrogen Production Systems

FeCrAl resistance wire for hydrogen production

0Cr21Al4 high-temperature resistance wire

hydrogen system FeCrAl heating wire