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Lega di NiCr
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Advanced NiCr Conductive Strips Cr20Ni30 for Sustainable Water Electrolysis Technology

Advanced NiCr Conductive Strips Cr20Ni30 for Sustainable Water Electrolysis Technology

Marchio: DLX
Numero di modello: Cr20Ni30
Moq: 10 kg
Condizioni di pagamento: L/C,D/A,D/P,T/T,Western Union,MoneyGram
Capacità di approvvigionamento: 500 tonnellate al mese
Informazioni dettagliate
Descrizione di prodotto
Informazioni dettagliate
Luogo di origine:
Cina, Jiangsu
Certificazione:
Ce,Rohs
Capacità di alimentazione:
500 tonnellate al mese
Evidenziare:

NiCr conductive strips Cr20Ni30

,

water electrolysis NiCr alloy

,

Cr20Ni30 conductive strips

Descrizione di prodotto
Advanced NiCr Conductive Strips Cr20Ni30 for Sustainable Water Electrolysis Technology
Advanced NiCr Conductive Strips Cr20Ni30 for Sustainable Water Electrolysis Technology 0
As the world shifts towards cleaner energy sources, green hydrogen is gaining attention as a sustainable solution for reducing carbon emissions. Water electrolysis is one of the most effective methods for producing green hydrogen, but to ensure efficiency and long-term reliability, the materials used in electrolysis systems must meet the highest standards. Advanced NiCr Conductive Strips Cr20Ni30 are specifically engineered for this purpose, offering exceptional performance for sustainable hydrogen production.
Product Introduction
Our Advanced NiCr Conductive Strips Cr20Ni30 are designed to optimize the efficiency of water electrolysis systems. Made with a blend of 20% chromium (Cr) and 30% nickel (Ni), these conductive strips provide excellent electrical conductivity, corrosion resistance, and high-temperature stability. Ideal for electrolysis systems, Cr20Ni30 alloy strips are built to withstand the demanding conditions of hydrogen production, ensuring enhanced performance and longevity in both acidic and alkaline electrolytes.
Product Specifications
Performance / material Cr10Ni90 Cr20Ni80 Cr30Ni70 Cr15Ni60 Cr20Ni35 Cr20Ni30
Composition 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 at 20℃ (μΩ·m) -- 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 0.461 0.494 0.5 0.5
Thermal conductivity (KJ/m.h℃) -- 60.3 45.2 45.2 43.8 43.8
Coefficient of linear expansion a*10⁻⁶/(20~1000℃) -- 18 17 17 19 19
Micrographic structure -- Austenite Austenite Austenite Austenite Austenite
Magnetic properties -- Non-magnetic Non-magnetic Non-magnetic Weak magnetic Weak 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)*(5-40)
Features of Advanced NiCr Conductive Strips Cr20Ni30
  • Superior Electrical Conductivity: The high nickel content ensures excellent conductivity, which is essential for the efficient flow of electricity in electrolysis systems.
  • Corrosion Resistance: Chromium enhances the alloy's resistance to corrosion, making these strips ideal for use in electrolytes with varying pH levels.
  • High Temperature Resistance: With an operating temperature range of 500°C to 900°C, these conductive strips can withstand the high temperatures often encountered in industrial electrolysis systems.
  • Customizable Dimensions: Available in a wide range of sizes and thicknesses, Cr20Ni30 strips can be tailored to fit your electrolysis system's exact specifications.
  • Sustainable and Efficient: As a critical component in green hydrogen production, these conductive strips contribute to a cleaner, more sustainable energy future.
Advanced NiCr Conductive Strips Cr20Ni30 for Sustainable Water Electrolysis Technology 1 Advanced NiCr Conductive Strips Cr20Ni30 for Sustainable Water Electrolysis Technology 2
Advantages of DLX Advanced NiCr Conductive Strips Cr20Ni30
  1. Durability in Harsh Conditions: The Cr20Ni30 alloy's exceptional corrosion resistance ensures that the strips maintain their performance over time, even in aggressive electrolytic environments.
  2. Maximized Efficiency: The high conductivity of the alloy minimizes energy loss during the electrolysis process, improving overall efficiency and reducing operational costs.
  3. Long-Term Performance: These strips are engineered to withstand high temperatures and harsh electrolytes, ensuring that your electrolysis system operates at peak performance for years.
  4. Tailored Solutions: DLX offers Advanced NiCr Conductive Strips Cr20Ni30 in custom sizes and configurations to meet the specific needs of your system.
  5. Innovative R&D: DLX is committed to continuous improvement, investing in research and development to ensure that our products stay at the forefront of electrolysis and hydrogen production technology.
Industry Analysis
The green hydrogen industry is growing rapidly as governments and industries around the world seek cleaner, more sustainable energy solutions. Water electrolysis, which splits water into hydrogen and oxygen using electricity, is one of the most promising technologies for large-scale hydrogen production. To meet the growing demand for hydrogen, electrolysis systems require high-performance materials like Advanced NiCr Conductive Strips Cr20Ni30 to ensure efficient operation.
As the market for green hydrogen continues to expand, the demand for reliable, durable, and efficient materials increases. Cr20Ni30 alloy conductive strips are crucial for maintaining optimal performance in electrolysis systems, contributing to the scalability and cost-effectiveness of hydrogen production. DLX's innovative materials are helping drive the future of clean energy and sustainable hydrogen production.
Applications of Advanced NiCr Conductive Strips Cr20Ni30
  • Hydrogen Production: Advanced NiCr Conductive Strips Cr20Ni30 are used in electrolysis systems to ensure efficient electricity conduction between electrodes, enabling the production of green hydrogen.
  • Fuel Cells: These conductive strips also improve the performance of fuel cells by reducing energy loss and ensuring a reliable flow of electricity.
  • Electrolysis Cells: They are a vital component in electrolysis cells, where they facilitate the flow of electricity between electrodes, optimizing hydrogen production.
  • Electrochemical Applications: Industries requiring high conductivity and corrosion resistance in electrochemical processes benefit from the use of Cr20Ni30 alloy strips.
Advanced NiCr Conductive Strips Cr20Ni30 for Sustainable Water Electrolysis Technology 3 Advanced NiCr Conductive Strips Cr20Ni30 for Sustainable Water Electrolysis Technology 4
Market Trends in Green Hydrogen
  1. Rising Demand for Green Hydrogen: As the global push for renewable energy intensifies, the demand for clean, sustainable hydrogen is increasing, leading to a higher need for efficient electrolysis systems and quality materials like Advanced NiCr Conductive Strips Cr20Ni30.
  2. Technological Advancements in Electrolysis: Electrolysis technology continues to evolve, requiring materials that can handle higher loads, temperatures, and corrosive environments while maintaining efficiency.
  3. Cost Reduction in Renewable Energy: As renewable energy sources such as wind and solar become more affordable, the cost of producing green hydrogen will decrease, increasing the demand for efficient and reliable materials like NiCr conductive strips.
Why Choose DLX for Advanced NiCr Conductive Strips Cr20Ni30?
DLX is a trusted leader in the development and production of Advanced NiCr Conductive Strips Cr20Ni30 for electrolysis systems. Our products are engineered for maximum efficiency and longevity, ensuring that your hydrogen production systems run smoothly and cost-effectively. DLX works closely with clients to provide customized solutions that meet the unique demands of each project, making us the partner of choice for electrolysis system manufacturers, hydrogen producers, and fuel cell innovators.
Advanced NiCr Conductive Strips Cr20Ni30 for Sustainable Water Electrolysis Technology 5 Advanced NiCr Conductive Strips Cr20Ni30 for Sustainable Water Electrolysis Technology 6 Advanced NiCr Conductive Strips Cr20Ni30 for Sustainable Water Electrolysis Technology 7
Frequently Asked Questions
What are Advanced NiCr Conductive Strips Cr20Ni30 used for?
These conductive strips are used in electrolysis systems to efficiently conduct electricity between electrodes, enabling the production of green hydrogen from water.
What makes DLX's NiCr strips stand out?
DLX's Advanced NiCr Conductive Strips Cr20Ni30 offer superior corrosion resistance, excellent electrical conductivity, and high-temperature stability, ensuring long-term performance in demanding electrolysis environments.
What is the temperature range for these conductive strips?
Advanced NiCr Conductive Strips Cr20Ni30 operate efficiently in temperatures ranging from 500°C to 900°C, making them suitable for industrial electrolysis applications.
Can these strips be customized?
Yes, DLX provides Cr20Ni30 alloy strips in a wide range of thicknesses, widths, and lengths to meet the specific needs of your electrolysis system.
How do NiCr alloy strips improve electrolysis efficiency?
The high electrical conductivity of Advanced NiCr Conductive Strips Cr20Ni30 minimizes energy loss during the electrolysis process, improving overall system efficiency.
Which industries benefit from these conductive strips?
Cr20Ni30 alloy strips are widely used in the hydrogen production industry, fuel cell applications, and any other electrochemical process that requires high conductivity and corrosion resistance.
What is the lifespan of these strips?
DLX's Advanced NiCr Conductive Strips Cr20Ni30 are designed for long-term durability, offering many years of reliable performance even in harsh conditions.
What are the future trends in the green hydrogen market?
As global demand for green hydrogen increases, electrolysis systems will require more advanced materials like NiCr conductive strips to enhance performance, reduce costs, and improve scalability.
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