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NiCr conductive Strips Cr20Ni80 for Optimized Hydrogen Electrolysis

NiCr conductive Strips Cr20Ni80 for Optimized Hydrogen Electrolysis

Ονομασία μάρκας:	DLX
Αριθμός μοντέλου:	Cr20Ni80
Μούβ:	10 κιλά
Όροι πληρωμής:	L/C,D/A,D/P,T/T,Western Union,MoneyGram
Ικανότητα εφοδιασμού:	500 τόνοι το μήνα

Λεπτομέρειες

Περιγραφή προϊόντων

Λεπτομέρειες

Τόπος καταγωγής:

Κίνα, Jiangsu

Πιστοποίηση:

Ce,Rohs

Δυνατότητα προσφοράς:

500 τόνοι το μήνα

Επισημαίνω:

NiCr conductive strips Cr20Ni80

NiCr alloy hydrogen electrolysis strips

Cr20Ni80 conductive strips for electrolysis

Περιγραφή προϊόντων

NiCr Conductive Strips Cr20Ni80 for Optimized Hydrogen Electrolysis

As the world pivots toward sustainable energy solutions, hydrogen has emerged as a key player in the clean energy sector. Among the various methods of hydrogen production, water electrolysis stands out as one of the most efficient and scalable approaches. However, for electrolysis to be effective, it requires highly specialized materials that can perform reliably in high-voltage, high-temperature, and corrosive environments. NiCr Conductive Strips Cr20Ni80 are designed to meet these rigorous demands, optimizing electrolysis systems for efficient and sustainable hydrogen production.

Product Introduction

NiCr Conductive Strips Cr20Ni80 are high-performance materials engineered specifically for use in electrolysis systems, where they play a critical role in ensuring efficient electrical conductivity and reliable performance. Composed of 20% chromium (Cr) and 80% nickel (Ni), these conductive strips offer a unique combination of properties: excellent conductivity, high-temperature resistance, and outstanding corrosion resistance. These attributes make them ideal for high-demand electrolysis cells used in green hydrogen production.

The Cr20Ni80 alloy is optimized for electrolyzers working in both acidic and alkaline environments, where other materials may degrade or fail. This makes the alloy an indispensable component in the production of green hydrogen, contributing to energy efficiency and sustainability over the long term.

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

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 NiCr Conductive Strips Cr20Ni80

High Electrical Conductivity: The 80% nickel content in Cr20Ni80 ensures low electrical resistance, which reduces energy loss and boosts the overall efficiency of electrolysis systems.
Superior Corrosion Resistance: The 20% chromium content enhances the alloy's ability to withstand both acidic and alkaline electrolytes, making it highly resistant to corrosion and oxidation over extended periods of use.
Thermal Stability: These strips are engineered to operate efficiently in temperatures ranging from 500°C to 900°C, ensuring stable performance even under high-voltage conditions.
Customizable Dimensions: DLX offers Cr20Ni80 strips in a wide range of thicknesses, widths, and lengths, allowing for customization to fit the specific needs of your electrolysis system.
Sustainable Hydrogen Production: By improving the efficiency of electrolysis, NiCr Conductive Strips Cr20Ni80 help make hydrogen production more cost-effective and environmentally sustainable.

Advantages of DLX NiCr Conductive Strips Cr20Ni80

Enhanced Efficiency: The low resistance of Cr20Ni80 strips ensures minimal energy loss, optimizing the overall performance of electrolysis systems and making hydrogen production more efficient.
Long-Term Durability: With excellent corrosion resistance and thermal stability, these strips are built to last in harsh electrolysis environments, reducing the need for frequent maintenance and replacement.
High Performance: Cr20Ni80 strips are designed to perform reliably in high-voltage, high-temperature conditions, which are typical in large-scale electrolysis applications.
Customizable Solutions: Whether you need strips of specific thicknesses or lengths, DLX provides customizable options that ensure a perfect fit for your electrolysis systems.
Contributing to Sustainability: By improving the efficiency and longevity of electrolysis systems, Cr20Ni80 strips support the continued growth of green hydrogen production, playing a vital role in the transition to renewable energy.

Industry Analysis

The green hydrogen market is experiencing rapid growth as governments, industries, and consumers all push for cleaner energy solutions. Electrolysis, especially the use of renewable electricity to split water into hydrogen and oxygen, is seen as one of the most scalable and efficient ways to produce green hydrogen. However, for electrolysis to be economically viable at scale, it requires components that can operate under extreme conditions—this is where NiCr Conductive Strips Cr20Ni80 come in.

The Cr20Ni80 alloy's excellent conductivity and resistance to corrosion make it the perfect material for electrolysis systems that need to perform at peak efficiency over long periods. As the hydrogen industry continues to grow, the demand for materials like Cr20Ni80 that can ensure high-efficiency electrolysis will also increase, making these conductive strips essential to the future of clean energy.

Applications of NiCr Conductive Strips Cr20Ni80

Electrolysis Systems: NiCr Conductive Strips Cr20Ni80 are critical components in electrolysis cells, where they facilitate efficient electricity conduction between electrodes, enabling the production of hydrogen.
Hydrogen Production: These strips are used in large-scale water electrolysis systems to produce green hydrogen, which can be used as a clean fuel or energy carrier.
Fuel Cells: In fuel cell applications, Cr20Ni80 strips help reduce energy loss, improving the efficiency of hydrogen-powered fuel cells.
Electrochemical Systems: Any system that requires high conductivity and corrosion resistance—such as those in the chemical, energy, and environmental industries—can benefit from NiCr Conductive Strips Cr20Ni80.

Market Trends in Green Hydrogen

Increasing Global Demand for Green Hydrogen: As countries strive to meet their carbon reduction targets, the demand for green hydrogen is expected to rise sharply. Electrolysis systems powered by renewable energy are key to scaling up hydrogen production, making materials like Cr20Ni80 essential for success.
Technological Advancements in Electrolysis: Electrolysis technology is continuously evolving to improve efficiency and lower costs. As these advancements progress, the need for advanced materials like NiCr Conductive Strips Cr20Ni80 that can handle more demanding conditions will only grow.
Significant Investments in Hydrogen Infrastructure: Both private companies and governments are investing heavily in hydrogen infrastructure, which increases the demand for high-quality materials like Cr20Ni80 for use in electrolysis systems.

Why Choose DLX for NiCr Conductive Strips Cr20Ni80?

DLX is a trusted provider of NiCr Conductive Strips Cr20Ni80, offering high-quality materials engineered for optimal performance in electrolysis systems. Our conductive strips are designed to withstand extreme conditions while ensuring efficient and sustainable hydrogen production. With customizable sizing options and a commitment to quality, DLX provides the perfect solution for your electrolysis needs.

FAQ

What are NiCr Conductive Strips Cr20Ni80 used for?

These strips are used in electrolysis systems to optimize hydrogen production by providing efficient electrical conductivity.

What makes DLX's NiCr strips unique?

DLX's Cr20Ni80 strips offer exceptional electrical conductivity, corrosion resistance, and high-temperature stability, making them perfect for demanding electrolysis environments.

What temperature range can these strips withstand?

These strips can operate at temperatures ranging from 500°C to 900°C, ensuring stable performance in high-voltage electrolysis cells.

Can these strips be customized?

Yes, DLX offers Cr20Ni80 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 conductivity of Cr20Ni80 strips reduces energy loss, increasing the efficiency of the electrolysis process and making hydrogen production more cost-effective.

Which industries use these conductive strips?

NiCr Conductive Strips Cr20Ni80 are used in industries such as hydrogen production, fuel cells, and electrochemical processes that require high conductivity and resistance to corrosion.

How long do NiCr alloy strips last?

With their high resistance to corrosion and thermal stability, Cr20Ni80 strips are designed for long-term durability and reliable performance.

What are the trends in the green hydrogen market?

As the demand for green hydrogen increases, the need for efficient and reliable electrolysis systems grows. This drives the demand for high-quality materials like NiCr strips that ensure optimal performance.

Ετικέτες:

Κράμα Inconel

Κράμα Monel

Κράμα Hastelloy

Κράμα Incoloy

Καθαρό μέταλλο νικελίου

Κράμα NiCr

Κράμα FeCrAl

Κράμα CuNi

Καλώδιο αντίστασης

Υψηλής θερμοκρασίας κράμα νικελίου

Καλώδιο συγκόλλησης νικελίου

Θερμικό καλώδιο ψεκασμού

Κράμα ακρίβειας

Γυμνό καλώδιο θερμοηλεκτρικών ζευγών

Καλώδιο επέκτασης θερμοηλεκτρικών ζευγών

καλώδιο με μόνωση ορυκτών

Σύνθετο ιριδίου πλατίνης

Σύνθετο χρωμίου κοβάλτου

Σύνθεση νιτινολίου

αφρός μετάλλων

Κράμα μετάλλων

Σειρά θέρμανσης

Κράμα Inconel

Κράμα Monel

Κράμα Hastelloy

Κράμα Incoloy

Καθαρό μέταλλο νικελίου

Κράμα NiCr

Κράμα FeCrAl

Κράμα CuNi

Καλώδιο αντίστασης

Υψηλής θερμοκρασίας κράμα νικελίου

Καλώδιο συγκόλλησης νικελίου

Θερμικό καλώδιο ψεκασμού

Κράμα ακρίβειας

Γυμνό καλώδιο θερμοηλεκτρικών ζευγών

Καλώδιο επέκτασης θερμοηλεκτρικών ζευγών

καλώδιο με μόνωση ορυκτών

Σύνθετο ιριδίου πλατίνης

Σύνθετο χρωμίου κοβάλτου

Σύνθεση νιτινολίου

αφρός μετάλλων

Κράμα μετάλλων

Σειρά θέρμανσης

λεπτομέρειες για τα προϊόντα

NiCr conductive Strips Cr20Ni80 for Optimized Hydrogen Electrolysis

NiCr conductive Strips Cr20Ni80 for Optimized Hydrogen Electrolysis

NiCr conductive strips Cr20Ni80

NiCr alloy hydrogen electrolysis strips

Cr20Ni80 conductive strips for electrolysis