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0Cr21Al6 FeCrAl Wire For Extreme Heat Corrosive Environments

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0Cr21Al6 FeCrAl Wire For Extreme Heat Corrosive Environments

MOQ:	150kgs
Price:	Negotiatable
Standard Packaging:	Wood box
Delivery Period:	2-30days
Payment Method:	L/C,T/T,Western Union,MoneyGram
Supply Capacity:	300 Ton per Month

Detail Information

Product Description

Detail Information

Place of Origin

China

Brand Name

NikTech

Certification

ISO 9001:2008

Model Number

0Cr21Al6

Density:

8.4 G/cm3

Applications:

Heating Elements, Resistors, Thermocouples, Etc.

Elongation At Break:

20-30%

Specific Heat Capacity:

450 J/kg·K

Operating Temperature:

Up To 1100°C

Electrical Resistivity:

1.0-1.5 μΩ·m

Tensile Strength:

600-900 MPa

Magnetic Properties:

Non-magnetic

Available Forms:

Wire, Strip, Sheet, Foil, Rod, Bar, Tube

Thermal Conductivity:

11.4 W/m·K

Material:

Nickel-Chromium Alloy

Highlight:

0Cr21Al6 fecral wire

900 MPa fecral wire

600 MPa nichrome high temp wire

Product Description

FeCrAl 0Cr21Al6 Resistance Wire for Extreme Heat & Corrosive Environments | ASTM-Compliant

Description

FeCrAl 0Cr21Al6 resistance wire delivers unmatched performance in high-temperature applications (up to 1250°C) with superior oxidation resistance. Ideal for industrial heaters, chemical reactors, and energy systems.

Product Overview

FeCrAl 0Cr21Al6 resistance wire is an advanced iron-chromium-aluminum alloy optimized for stability in aggressive thermal and chemical conditions. Comprising 21% chromium (Cr) and 6% aluminum (Al), this alloy develops a robust alumina (Al₂O₃) oxide layer when exposed to heat, ensuring exceptional resistance to oxidation, sulfidation, and chlorine-induced corrosion. With a service temperature range of 200°C to 1250°C, it outperforms conventional Ni-Cr alloys in prolonged high-heat scenarios, particularly in sulfur-rich or acidic atmospheres common in petrochemical and power generation industries.

The alloy’s low resistivity drift (1.40 μΩ·m at 20°C) guarantees consistent electrical performance, while its high tensile strength (≥600 MPa) and ductility allow seamless fabrication into coils, heating elements, and precision thermocouples. Compliant with ASTM B603, DIN 17471, and JIS C2520, FeCrAl 0Cr21Al6 is engineered for global adaptability—suitable for Middle Eastern oil refineries, Southeast Asian semiconductor plants, and European renewable energy systems. Its lightweight density (7.0 g/cm³) further enhances cost-efficiency in aerospace and automotive sensor applications.

Technical Specifications

Chemical Composition

Element	Cr (%)	Al (%)	Fe (%)	Trace Elements (Max %)
Content	20-22	5.5-6.5	Balance	C: 0.06, Si: 0.5, Mn: 0.4

Mechanical Properties

Property	Value
Tensile Strength	600-700 MPa
Elongation (at 20°C)	≥20%
Hardness (HV)	200-230

Physical Parameters

Parameter	Value
Density	7.0 g/cm³
Melting Point	1480°C
Resistivity (20°C)	1.40 μΩ·m

Standards Compliance

ASTM B603: Electrical Resistance Alloys
DIN 17471: High-Temperature Material Specifications
JIS C2520: Japanese Industrial Standards

Applications

Energy Sector: Heating elements in boilers, nuclear reactors, and geothermal systems.
Chemical Processing: Corrosion-resistant coils for acid baths and reactors.
Automotive: Exhaust gas recirculation (EGR) sensors and glow plugs.
Consumer Appliances: Durable heating coils in industrial dryers and ovens.
Aerospace: Lightweight wiring for high-temperature avionics.

FAQs

Q1: How does FeCrAl 0Cr21Al6 compare to Kanthal alloys?
A: FeCrAl 0Cr21Al6 offers higher aluminum content for better oxidation resistance at lower costs, ideal for sulfur-rich or cyclic heating environments.

Q2: What is the recommended maximum operating temperature?
A: 1250°C in oxidizing atmospheres. For reducing environments (e.g., hydrogen-rich), limit to 1000°C to prevent embrittlement.

Q3: Can this wire be used in marine environments?
A: Yes, its high chromium content resists chloride-induced pitting, making it suitable for offshore platforms and desalination systems.

Tags:

heat resistant wire,

Resistance Wire,

nickel chromium

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0Cr21Al6 FeCrAl Wire For Extreme Heat Corrosive Environments

MOQ:	150kgs
Price:	Negotiatable
Standard Packaging:	Wood box
Delivery Period:	2-30days
Payment Method:	L/C,T/T,Western Union,MoneyGram
Supply Capacity:	300 Ton per Month

Detail Information

Product Description

Detail Information

Place of Origin

China

Brand Name

NikTech

Certification

ISO 9001:2008

Model Number

0Cr21Al6

Density:

8.4 G/cm3

Applications:

Heating Elements, Resistors, Thermocouples, Etc.

Elongation At Break:

20-30%

Specific Heat Capacity:

450 J/kg·K

Operating Temperature:

Up To 1100°C

Electrical Resistivity:

1.0-1.5 μΩ·m

Tensile Strength:

600-900 MPa

Magnetic Properties:

Non-magnetic

Available Forms:

Wire, Strip, Sheet, Foil, Rod, Bar, Tube

Thermal Conductivity:

11.4 W/m·K

Material:

Nickel-Chromium Alloy

Minimum Order Quantity:

150kgs

Price:

Negotiatable

Packaging Details:

Wood box

Delivery Time:

2-30days

Payment Terms:

L/C,T/T,Western Union,MoneyGram

Supply Ability:

300 Ton per Month

Highlight

0Cr21Al6 fecral wire

900 MPa fecral wire

600 MPa nichrome high temp wire

Product Description

FeCrAl 0Cr21Al6 Resistance Wire for Extreme Heat & Corrosive Environments | ASTM-Compliant

Description

Product Overview

Technical Specifications

Chemical Composition

Element	Cr (%)	Al (%)	Fe (%)	Trace Elements (Max %)
Content	20-22	5.5-6.5	Balance	C: 0.06, Si: 0.5, Mn: 0.4

Mechanical Properties

Property	Value
Tensile Strength	600-700 MPa
Elongation (at 20°C)	≥20%
Hardness (HV)	200-230

Physical Parameters

Parameter	Value
Density	7.0 g/cm³
Melting Point	1480°C
Resistivity (20°C)	1.40 μΩ·m

Standards Compliance

ASTM B603: Electrical Resistance Alloys
DIN 17471: High-Temperature Material Specifications
JIS C2520: Japanese Industrial Standards

Applications

Energy Sector: Heating elements in boilers, nuclear reactors, and geothermal systems.
Chemical Processing: Corrosion-resistant coils for acid baths and reactors.
Automotive: Exhaust gas recirculation (EGR) sensors and glow plugs.
Consumer Appliances: Durable heating coils in industrial dryers and ovens.
Aerospace: Lightweight wiring for high-temperature avionics.

FAQs

Q2: What is the recommended maximum operating temperature?
A: 1250°C in oxidizing atmospheres. For reducing environments (e.g., hydrogen-rich), limit to 1000°C to prevent embrittlement.

Q3: Can this wire be used in marine environments?
A: Yes, its high chromium content resists chloride-induced pitting, making it suitable for offshore platforms and desalination systems.

Tags: