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0Cr21Al4 FeCrAl Resistance Wire for Efficient Hydrogen Production

0Cr21Al4 FeCrAl Resistance Wire for Efficient Hydrogen Production

Ονομασία μάρκας:	DLX
Αριθμός μοντέλου:	Σύρμα κραμάτων FeCrAl 0Cr21Al4
Μούβ:	10 κιλά
Όροι πληρωμής:	L/C,D/A,D/P,T/T,Western Union
Ικανότητα εφοδιασμού:	500 τόνοι το μήνα

Λεπτομέρειες

Περιγραφή προϊόντων

Λεπτομέρειες

Τόπος καταγωγής:

Κίνα, Jiangsu

Πιστοποίηση:

Ce,Rohs

Δυνατότητα προσφοράς:

500 τόνοι το μήνα

Επισημαίνω:

FeCrAl resistance wire for hydrogen production

0Cr21Al4 resistance heating wire

high-efficiency FeCrAl resistance wire

Περιγραφή προϊόντων

0Cr21Al4 FeCrAl Resistance Wire for Efficient Hydrogen Production

In the world of sustainable energy, hydrogen production is gaining traction as a clean fuel source, particularly through the process of electrolysis. The need for efficient, durable materials is critical in ensuring the success of hydrogen generation technologies. 0Cr21Al4 FeCrAl Resistance Wire is a high-performance material designed specifically for electrolysis applications. Its superior resistance to corrosion, high thermal stability, and precise electrical properties make it a go-to choice for businesses in the hydrogen production industry.

At DLX Corporation, we pride ourselves on providing top-tier alloys like 0Cr21Al4 FeCrAl Resistance Wire, which is tailored to meet the exacting standards of hydrogen electrolysis systems. Whether you're developing industrial-scale electrolyzers or small-scale systems, our wire provides the efficiency, durability, and reliability you need to optimize your hydrogen production.

Product Overview

0Cr21Al4 FeCrAl Resistance Wire is a high-quality alloy wire, made up of a combination of iron (Fe), chromium (Cr), and aluminum (Al). This unique blend ensures exceptional oxidation and corrosion resistance, even under extreme conditions such as high temperatures and aggressive electrolytic environments. The alloy is specifically engineered to maintain stable electrical resistance, making it ideal for use as an electrode in electrolysis systems.

Electrolysis uses electrical current to split water into hydrogen and oxygen. 0Cr21Al4 FeCrAl Resistance Wire is a vital component of this process, as it facilitates efficient water splitting through its optimized electrical conductivity and resistance to wear and tear. When used in electrolyzers, this wire helps generate hydrogen gas for use in a variety of energy applications, including fuel cells, energy storage, and clean industrial processes.

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 ensures outstanding resistance to oxidation and corrosion, even in harsh electrolytic environments, extending the lifespan of electrolysis systems.
Stable Electrical Properties: Maintains consistent electrical resistance over time, ensuring efficient energy transfer during electrolysis and optimizing hydrogen production.
High Thermal Stability: With a melting point of up to 1,500 °C, the wire withstands high temperatures encountered in electrolysis processes, making it suitable for demanding applications.
Customizable Dimensions: Available in a wide range of diameters and lengths, can be customized to fit specific requirements of your electrolysis systems.
Improved Efficiency: The alloy's thermal conductivity and oxidation resistance contribute to better overall system performance and higher efficiency in hydrogen generation.

Advantages of Using DLX's 0Cr21Al4 FeCrAl Resistance Wire

Superior Durability: Designed for long-term use, reducing replacement frequency and minimizing downtime, leading to significant cost savings.
Enhanced Performance: Optimized electrical resistance and high thermal conductivity ensure more efficient and reliable hydrogen production.
Quality Assurance: Extensive quality control procedures ensure every batch meets the highest standards of performance and durability.
Sustainable Solution: Supports the growing hydrogen economy by improving the efficiency of clean hydrogen production systems.
Tailored Service: Expert advice and customizable solutions ensure seamless integration into your specific electrolysis setup.

Industry Analysis

As global efforts to transition towards cleaner energy sources intensify, hydrogen has emerged as a key player in achieving carbon neutrality. Hydrogen production via electrolysis—splitting water into hydrogen and oxygen using electrical energy—provides a sustainable method of generating hydrogen without relying on fossil fuels. Electrolysis systems are expected to see significant growth as governments and industries look to reduce their carbon footprints and embrace renewable energy solutions.

The demand for efficient, high-performance materials like 0Cr21Al4 FeCrAl Resistance Wire is expected to increase in line with the growth of the hydrogen economy. The ability to perform under extreme conditions, while maintaining efficiency and durability, makes it an ideal choice for electrolyzers that will power future hydrogen production systems.

The shift towards large-scale electrolysis systems and the expansion of green hydrogen projects worldwide will continue to drive demand for high-quality materials like 0Cr21Al4 FeCrAl Resistance Wire, ensuring its role in the energy transition for years to come.

Applications

Hydrogen Production via Electrolysis: Primary application in electrolysis systems that produce hydrogen from water, a clean and renewable energy source.
Fuel Cells: Used as an electrode material in fuel cells, generating electricity by combining hydrogen with oxygen, producing only water as a byproduct.
Energy Storage Systems: Plays a vital role in electrolysis process for hydrogen storage, improving storage efficiency for clean energy applications.
Chemical Industry Applications: Used in various chemical production processes where high temperatures and electrolysis reactions are involved.
Renewable Energy Applications: Employed in renewable energy systems that rely on electrolysis for energy conversion or storage.

DLX's Competitive Advantage

DLX Corporation is a trusted leader in the alloy materials sector, providing premium 0Cr21Al4 FeCrAl Resistance Wire that ensures high performance, reliability, and cost-effectiveness in hydrogen production applications. When you choose DLX, you're not just buying a product—you're partnering with a company that understands the evolving needs of the energy sector and is committed to providing cutting-edge solutions.

Why Choose DLX?

Expertise: Years of experience in the alloy trade, understanding unique challenges of hydrogen production and providing tailored solutions.
High-Quality Manufacturing: Carefully manufactured to meet the highest quality standards, ensuring durability and optimal performance.
Cost-Effective Solutions: Competitive pricing without compromising on quality or performance, delivering excellent value to clients.
Sustainability Commitment: Actively contributing to global efforts to reduce carbon emissions and promote renewable energy through clean hydrogen production.

Frequently Asked Questions

What is the composition of 0Cr21Al4 FeCrAl Resistance Wire?
It is composed primarily of iron (Fe), chromium (21%), and aluminum (4%), offering high resistance to oxidation and excellent thermal stability.
How is 0Cr21Al4 FeCrAl Resistance Wire used in electrolysis?
The wire acts as an electrode in electrolysis systems, helping to split water molecules into hydrogen and oxygen through electrical current.
What are the temperature limits of the wire?
The wire can withstand temperatures up to 1,500 °C, making it ideal for high-temperature electrolysis environments.
Can this wire be customized for different applications?
Yes, DLX provides custom lengths and diameters to meet the specific requirements of your electrolysis system.
How does 0Cr21Al4 FeCrAl Resistance Wire compare to other materials?
This wire offers superior oxidation resistance, thermal stability, and consistent electrical performance, making it highly suitable for hydrogen production via electrolysis.
What industries use 0Cr21Al4 FeCrAl Resistance Wire?
The wire is widely used in hydrogen production, fuel cells, renewable energy storage, and chemical industries.
Is 0Cr21Al4 FeCrAl Resistance Wire suitable for large-scale applications?
Yes, its durability and performance under extreme conditions make it ideal for large-scale industrial electrolysis systems.
What makes DLX's 0Cr21Al4 FeCrAl Resistance Wire superior?
DLX offers high-quality, durable, and customizable solutions, backed by years of expertise and a commitment to sustainability in the hydrogen production industry.

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

0Cr21Al4 FeCrAl Resistance Wire for Efficient Hydrogen Production

0Cr21Al4 FeCrAl Resistance Wire for Efficient Hydrogen Production

FeCrAl resistance wire for hydrogen production

0Cr21Al4 resistance heating wire

high-efficiency FeCrAl resistance wire