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Vernickeln Sie schweißenden Draht

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0Cr21Al6Nb FeCrAl Wire for Superior Hydrogen Electrolysis Performance

0Cr21Al6Nb FeCrAl Wire for Superior Hydrogen Electrolysis Performance

Markenbezeichnung: DLX
Modellnummer: FeCrAl-Legierungsdraht 0Cr21Al6Nb
MOQ: 10kg
Zahlungsbedingungen: L/C, D/A, D/P, T/T, Western Union
Versorgungsfähigkeit: 500 Tonnen pro Monat
Einzelheiten
Produkt-Beschreibung
Einzelheiten
Herkunftsort:
China, Jiangsu
Zertifizierung:
Ce,Rohs
Versorgungsmaterial-Fähigkeit:
500 Tonnen pro Monat
Hervorheben:

FeCrAl wire for hydrogen electrolysis

,

0Cr21Al6Nb FeCrAl alloy wire

,

Inconel alloy electrolysis wire

Produkt-Beschreibung
0Cr21Al6Nb FeCrAl Wire for Superior Hydrogen Electrolysis Performance
0Cr21Al6Nb FeCrAl Wire for Superior Hydrogen Electrolysis Performance 0 As the world turns toward cleaner, renewable energy solutions, hydrogen has emerged as a critical player in decarbonizing industries and reducing global carbon emissions. Electrolysis, particularly water electrolysis, is one of the most efficient ways to produce green hydrogen. The performance of electrolysis systems depends heavily on the materials used within them, especially the resistance wire. Our 0Cr21Al6Nb FeCrAl Wire is designed to deliver superior performance in hydrogen generation, offering exceptional durability, oxidation resistance, and thermal stability in high-efficiency electrolysis applications.
Product Overview
The 0Cr21Al6Nb FeCrAl Wire is a high-quality alloy composed of iron (Fe), chromium (Cr), aluminum (Al), and niobium (Nb). This unique combination of elements ensures outstanding resistance to oxidation and corrosion, even under extreme temperatures. The wire is specifically designed for use in electrolysis systems that produce hydrogen by splitting water into hydrogen and oxygen. Thanks to its high-temperature stability, excellent mechanical properties, and exceptional resistance to electrolytic corrosion, the 0Cr21Al6Nb FeCrAl Wire is an ideal material for high-performance, long-lasting electrolysis systems.
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
Tensile Strength (N/mm²) 580-680 630-780 630-780 630-780 600-700 650-800 680-830
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 & Advantages
  • Outstanding Oxidation Resistance The 0Cr21Al6Nb FeCrAl Wire provides excellent oxidation resistance, even under extreme conditions typically found in water electrolysis systems. This ensures the wire maintains its integrity over time, contributing to the system's overall longevity and performance.
  • Superior Corrosion Resistance Designed to resist corrosion in aggressive electrolytic environments, this wire is perfect for electrolysis applications where resistance to chemical degradation is crucial. The wire performs reliably without degrading over time, reducing maintenance and operational costs.
  • High Temperature Stability With the ability to withstand temperatures up to 1000°C, the 0Cr21Al6Nb FeCrAl Wire ensures that electrolysis systems can operate at optimal temperatures, maintaining consistent performance and reliability under high-heat conditions.
  • Enhanced Mechanical Strength The alloy offers impressive tensile strength, ranging from 450-800 MPa, and a high melting point of 1550°C. These properties provide exceptional mechanical stability, even under the stresses associated with large-scale hydrogen production.
  • Tailored Solutions for Diverse Needs DLX offers customizable wire diameters, tensile strengths, and tolerance levels to meet the unique requirements of your electrolysis system, ensuring a perfect fit for every application.
  • Cost-Effective Solution The wire's longevity and minimal maintenance requirements make it a highly cost-effective choice, reducing the need for frequent replacements and ensuring that your electrolysis system operates smoothly for extended periods.
0Cr21Al6Nb FeCrAl Wire for Superior Hydrogen Electrolysis Performance 1 0Cr21Al6Nb FeCrAl Wire for Superior Hydrogen Electrolysis Performance 2
Industry Trends & Market Insights
As the world shifts toward a more sustainable energy future, hydrogen has garnered significant attention as a clean fuel source for everything from transportation to energy storage. Electrolysis, particularly water electrolysis, is recognized as one of the most efficient and environmentally friendly methods of producing hydrogen, especially when powered by renewable energy sources such as solar and wind.
The global hydrogen market is expanding rapidly, and with it, the need for reliable, durable materials that can withstand the challenging conditions in electrolysis cells. The 0Cr21Al6Nb FeCrAl Wire meets these needs, offering exceptional performance and longevity in hydrogen production systems. As industries, governments, and research organizations accelerate their investments in hydrogen infrastructure, materials like the 0Cr21Al6Nb FeCrAl Wire will continue to play a crucial role in enabling efficient, scalable hydrogen production.
Applications
  • Hydrogen Fuel Cells This wire is a key component in hydrogen fuel cells, which are used in applications like fuel-cell vehicles, energy storage systems, and backup power systems. The wire's durability and efficiency make it an essential material for hydrogen fuel cell technology.
  • Green Hydrogen Production When powered by renewable energy, electrolysis systems produce green hydrogen, and the 0Cr21Al6Nb FeCrAl Wire plays a critical role in ensuring efficient and sustainable hydrogen production.
  • Energy Storage Systems Electrolysis-based energy storage systems use excess renewable energy to produce hydrogen, which can be stored and later converted back into electricity. The wire ensures that the electrolysis process remains efficient and reliable.
  • Industrial Applications In industries like steel production, refining, and ammonia synthesis, hydrogen produced via electrolysis can replace fossil fuels. The 0Cr21Al6Nb FeCrAl Wire is essential for maintaining the performance and efficiency of these processes.
0Cr21Al6Nb FeCrAl Wire for Superior Hydrogen Electrolysis Performance 3 0Cr21Al6Nb FeCrAl Wire for Superior Hydrogen Electrolysis Performance 4
Why DLX?
DLX is a trusted supplier of high-quality materials for the energy sector. Our 0Cr21Al6Nb FeCrAl Wire offers unmatched performance, durability, and efficiency for hydrogen electrolysis systems. Here's why DLX is the ideal partner for your hydrogen production needs:
  • Superior Quality We adhere to the highest quality standards in every stage of production, ensuring that each batch of wire delivers consistent, reliable performance for your electrolysis systems.
  • Customized Solutions Whether you need specific wire diameters, tensile strengths, or other custom specifications, DLX offers tailored solutions to ensure that our wire meets your exact requirements.
  • Expert Support With extensive experience in the alloy and energy industries, DLX provides expert consultation and advice, helping you choose the best material for your hydrogen production system.
  • Timely Delivery We understand the importance of timely project execution. DLX guarantees fast and reliable delivery, ensuring that your system stays on schedule.
  • Sustainability Commitment DLX is dedicated to supporting the global transition to green energy, offering materials that contribute to the development of a cleaner, more sustainable hydrogen economy.
0Cr21Al6Nb FeCrAl Wire for Superior Hydrogen Electrolysis Performance 5 0Cr21Al6Nb FeCrAl Wire for Superior Hydrogen Electrolysis Performance 6 0Cr21Al6Nb FeCrAl Wire for Superior Hydrogen Electrolysis Performance 7
Frequently Asked Questions (FAQs)
What is 0Cr21Al6Nb FeCrAl Wire used for?
The 0Cr21Al6Nb FeCrAl Wire is primarily used in electrolysis systems for hydrogen production. Its high oxidation and corrosion resistance make it ideal for harsh electrolytic environments.
Can 0Cr21Al6Nb FeCrAl Wire withstand high temperatures?
Yes, the wire can withstand temperatures up to 1000°C, making it suitable for high-temperature electrolysis processes.
How does the 0Cr21Al6Nb FeCrAl Wire improve electrolysis efficiency?
The wire's resistance to oxidation and corrosion ensures stable performance over long periods, reducing system failures and energy losses in electrolysis processes.
Can this wire be customized for different electrolysis applications?
Yes, DLX offers customization options for wire diameter, tensile strength, and other specifications to suit your specific electrolysis system needs.
How long does the 0Cr21Al6Nb FeCrAl Wire last?
The wire's exceptional resistance to oxidation and corrosion allows it to have a long service life, minimizing the need for frequent replacements and reducing operational costs.
Is 0Cr21Al6Nb FeCrAl Wire cost-effective?
Yes, due to its durability and long lifespan, the 0Cr21Al6Nb FeCrAl Wire is a highly cost-effective solution, reducing maintenance and replacement costs for large-scale hydrogen production systems.
What industries can benefit from this wire?
Industries involved in hydrogen fuel cell technology, green hydrogen production, energy storage, and industrial hydrogen applications all benefit from the use of 0Cr21Al6Nb FeCrAl Wire.
How does DLX support customers in selecting the right material?
DLX offers personalized consultations to help you choose the best wire for your electrolysis system, ensuring maximum performance and efficiency.
Tags: 

ASTM B344 Nichrom-Widerstandsdraht  

1200°C maximale Betriebstemperatur NiCr 80/20 Draht  

1400°C Schmelzpunkt Heizelementdraht

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