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Engineered NiCr Strips for High-Voltage Electrolysis and Hydrogen Production

Engineered NiCr Strips for High-Voltage Electrolysis and Hydrogen Production

Nombre De La Marca:	DLX
Número De Modelo:	Cr10Ni90
Cuota De Producción:	10 kilos
Condiciones De Pago:	LC, D/A, D/P, T/T, Western Union, MoneyGram
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:

NiCr alloy strips for electrolysis

high-voltage NiCr strips

hydrogen production NiCr alloy

Descripción de producto

Engineered NiCr Strips for High-Voltage Electrolysis and Hydrogen Production

As the global push for green hydrogen accelerates, water electrolysis has become a cornerstone technology for producing clean, sustainable hydrogen. However, high-voltage electrolysis systems, which are essential for large-scale hydrogen production, demand highly specialized materials that can handle extreme electrical loads and high temperatures. Engineered NiCr Strips Cr10Ni90 are specifically designed to meet these demands, offering unparalleled performance and reliability for electrolysis systems focused on hydrogen production.

Product Introduction

Our Engineered NiCr Strips Cr10Ni90 are designed for high-voltage electrolysis applications where performance under extreme conditions is crucial. Made from an alloy of 90% nickel (Ni) and 10% chromium (Cr), these conductive strips offer excellent electrical conductivity, high-temperature resistance, and outstanding corrosion protection. The Cr10Ni90 alloy is ideal for electrolysis systems operating in both acidic and alkaline electrolytes, where durability and efficiency are key to maintaining consistent hydrogen production over time.

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 Engineered NiCr Strips Cr10Ni90

Exceptional Electrical Conductivity: The high nickel content in Cr10Ni90 ensures low electrical resistance, which is vital for efficient energy flow in high-voltage electrolysis systems. This reduces energy loss, increasing the overall efficiency of hydrogen production.
Outstanding Corrosion Resistance: With its chromium content, Cr10Ni90 provides excellent resistance to corrosion, making it ideal for electrolysis environments where electrolytes may be acidic or alkaline. This corrosion resistance ensures that the strips maintain their integrity and performance over time.
High Temperature Stability: These strips are engineered to withstand temperatures ranging from 500°C to 1000°C, making them perfect for high-voltage electrolysis systems that operate under intense heat.
Customizable Sizing: Engineered NiCr Strips Cr10Ni90 are available in a range of thicknesses, widths, and lengths to meet the specific needs of your electrolysis systems. Custom solutions ensure the strips are optimized for your setup.
Sustainable Hydrogen Production: As part of electrolysis systems, these strips play a critical role in the efficient production of green hydrogen, contributing to the shift towards more sustainable energy solutions.

Advantages of DLX Engineered NiCr Strips Cr10Ni90

Superior Performance: The high nickel content in Cr10Ni90 provides excellent electrical conductivity, ensuring that your electrolysis system operates efficiently and with minimal energy loss.
Long-Term Durability: With outstanding resistance to corrosion and the ability to withstand high temperatures, Cr10Ni90 strips offer long-lasting performance, reducing the need for frequent replacements and maintenance.
Enhanced Efficiency: By minimizing electrical resistance and maximizing energy transfer, Engineered NiCr Strips Cr10Ni90 help optimize the performance of electrolysis systems, making hydrogen production more cost-effective.
Tailored Fit: DLX offers Cr10Ni90 strips in customizable sizes and configurations, ensuring a perfect match for the specifications of your electrolysis system.
Continual Innovation: DLX's ongoing research and development efforts ensure that our Engineered NiCr Strips Cr10Ni90 remain at the forefront of electrolysis and hydrogen production technologies.

Industry Analysis

As the demand for green hydrogen rises, electrolysis is becoming one of the leading methods for hydrogen production. However, high-voltage electrolysis systems require components that can handle the intense electrical and thermal conditions of the process. This is where NiCr strips, particularly Cr10Ni90, come in. The high nickel content ensures that these strips perform exceptionally well under high-voltage conditions, where low resistance is essential for efficient operation.

The global push toward sustainable energy solutions is fueling the growth of the hydrogen market, and electrolysis systems are critical to meeting this demand. Engineered NiCr Strips Cr10Ni90 are an integral part of these systems, ensuring that electrolysis operates efficiently, reliably, and with minimal energy waste. As hydrogen production continues to scale up, the demand for advanced materials like Cr10Ni90 will only increase, positioning these strips as essential components for the future of green energy.

Applications of Engineered NiCr Strips Cr10Ni90

High-Voltage Electrolysis: These strips are used in high-voltage electrolysis systems to ensure efficient electricity conduction between electrodes, facilitating the production of hydrogen from water.
Hydrogen Production: Cr10Ni90 strips are a key component of electrolysis systems that split water molecules into hydrogen and oxygen, enabling the production of green hydrogen for various industries.
Fuel Cells: These conductive strips are also used in fuel cell technologies, improving efficiency by reducing energy loss and ensuring stable electricity flow.
Electrochemical Processes: Any process that requires high conductivity and corrosion resistance can benefit from Engineered NiCr Strips Cr10Ni90, including various electrochemical applications in the chemical and energy industries.

Market Trends in Green Hydrogen

Rising Global Demand for Green Hydrogen: As nations worldwide commit to reducing carbon emissions, green hydrogen is emerging as a key energy source. This, in turn, is driving the demand for high-performance materials like Cr10Ni90 to support electrolysis systems.
Advancements in Electrolysis Technology: Electrolysis technology is evolving, with efforts focused on improving efficiency and reducing costs. This trend creates a growing demand for advanced materials like Cr10Ni90 that can handle more demanding conditions.
Increased Investment in Hydrogen Infrastructure: Both public and private sectors are investing heavily in hydrogen infrastructure, which further increases the demand for high-performance components like NiCr alloy strips in electrolysis systems.

Why Choose DLX for Engineered NiCr Strips Cr10Ni90?

DLX is a trusted leader in providing Engineered NiCr Strips Cr10Ni90 for electrolysis systems. Our products are designed to withstand the most challenging conditions, providing reliable performance in high-voltage electrolysis applications. With customizable options and a focus on sustainability, DLX ensures that our conductive strips are a perfect fit for your green hydrogen production systems.

Frequently Asked Questions

What are Engineered NiCr Strips Cr10Ni90 used for?

These strips are used in high-voltage electrolysis systems to conduct electricity efficiently between electrodes, supporting the production of green hydrogen.

What makes DLX's NiCr strips unique?

DLX's Cr10Ni90 strips are known for their high conductivity, excellent corrosion resistance, and ability to perform in high-temperature, high-voltage environments.

What temperature range can these strips handle?

Engineered NiCr Strips Cr10Ni90 can operate in temperatures between 500°C and 1000°C, making them ideal for demanding electrolysis systems.

Can these strips be customized?

Yes, DLX provides NiCr strips in various 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 Cr10Ni90 minimizes energy loss during the electrolysis process, ensuring higher efficiency in hydrogen production.

What industries benefit from these conductive strips?

Cr10Ni90 strips are widely used in hydrogen production, fuel cell applications, and other electrochemical processes that require high conductivity and resistance to corrosion.

What is the lifespan of these strips?

With their excellent corrosion resistance and high-temperature tolerance, Engineered NiCr Strips Cr10Ni90 are designed for long-term, reliable performance.

What are the key trends in the green hydrogen market?

The demand for green hydrogen is growing rapidly, driving the need for advanced materials like NiCr alloy strips to improve the efficiency and scalability of electrolysis systems.

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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

Engineered NiCr Strips for High-Voltage Electrolysis and Hydrogen Production

Engineered NiCr Strips for High-Voltage Electrolysis and Hydrogen Production

NiCr alloy strips for electrolysis

high-voltage NiCr strips

hydrogen production NiCr alloy