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0Cr27Al7Mo2 Resistance Alloy Fe-Cr-Al-Mo Alloy For Heat Aggressive Environments

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0Cr27Al7Mo2 Resistance Alloy Fe-Cr-Al-Mo Alloy For Heat Aggressive Environments

MOQ:	150kgs
Price:	Negotiatable
Standard Packaging:	carton, plywood pallet
Delivery Period:	2-30days
Payment Method:	L/C,T/T,Western Union
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

0Cr27Al7Mo2

Applications:

Heating Elements, Resistors, Thermocouples, Furnace Parts

Corrosion Resistance:

Excellent

Tensile Strength:

600-800 MPa

Elongation:

20-30%

Electrical Resistivity:

0.1-0.15 μΩ·m

Magnetic Properties:

Non-magnetic

Composition:

Nickel, Chromium, Iron, Copper

Density:

8.4-8.7 G/cm3

Hardness:

150-200 HB

Thermal Conductivity:

11-13 W/m·K

Coefficient Of Thermal Expansion:

13-15 × 10-6/K

Highlight:

600 MPa Resistance Alloy

800 MPa Resistance Alloy

ASTM alloy resistance

Product Description

0Cr27Al7Mo2 Resistance Wire – Advanced Fe-Cr-Al-Mo Alloy for Extreme Heat & Aggressive Environments

Description

0Cr27Al7Mo2 resistance wire is a premium iron-chromium-aluminum-molybdenum (Fe-Cr-Al-Mo) alloy engineered for ultra-high temperature applications requiring exceptional oxidation resistance, mechanical stability, and longevity in corrosive atmospheres. With a composition of 26–28% chromium, 6.5–7.5% aluminum, 1.5–2.5% molybdenum, and balanced iron, this alloy forms a robust alumina (Al₂O₃) layer at temperatures up to 1,500°C (2,732°F), delivering unparalleled protection against oxidation, carburization, and sulfidation in sulfur-rich, chlorine-laden, or reducing environments. The addition of molybdenum enhances creep resistance and minimizes intergranular corrosion, making it ideal for industrial furnaces, petrochemical reactors, and aerospace systems.

Certified to GB/T 1234 and DIN 17470 standards, 0Cr27Al7Mo2 wire achieves a tensile strength of 650–800 MPa and a surface load capacity of 2.5 W/cm², outperforming conventional Fe-Cr-Al alloys in extreme thermal cycles. Its high electrical resistivity (1.50 μΩ·m) and low thermal expansion coefficient (14.0×10⁻⁶/°C) ensure energy efficiency and dimensional stability, reducing operational costs in high-stress applications such as glass manufacturing, hydrogen production, and advanced nuclear reactors.

Technical Specifications (Table)

Property	Value	Standard
Chemical Composition	Cr: 26–28%, Al: 6.5–7.5%, Mo: 1.5–2.5%	GB/T 1234, DIN 17470
	Fe: Balance, C: ≤0.08%, Si: ≤1.0%	ASTM B603 (similar)
Mechanical Properties	Tensile Strength: 650–800 MPa	ASTM E8
	Elongation: ≥12%
Physical Parameters	Density: 7.1 g/cm³	ISO 6892
	Melting Point: 1,520°C
	Electrical Resistivity: 1.50 μΩ·m

Applications

Industrial Furnaces: Heating elements for glass melting tanks, ceramic sintering, and steel annealing.
Petrochemical: Ethylene cracker tubes, sulfur recovery units (SRUs), and hydrogen reformers.
Aerospace: Combustion chamber liners, turbine exhaust components, and rocket engine igniters.
Energy Production: Hydrogen electrolyzers, nuclear reactor heat exchangers, and syngas reactors.
Chemical Processing: Reactors handling molten salts, chlorinated hydrocarbons, and sulfuric acid.

Q&A

Q1: How does molybdenum enhance 0Cr27Al7Mo2’s performance compared to standard Fe-Cr-Al alloys?
A: Molybdenum improves high-temperature creep resistance, reduces sulfur-induced embrittlement, and enhances corrosion resistance in chloride-rich environments.

Q2: What is the maximum continuous operating temperature in reducing atmospheres?
A: 1,400°C in reducing or vacuum environments, with optimal performance in hydrogen or inert gases.

Q3: Is pre-oxidation required for new heating elements?
A: Yes. Heat treatment at 1,000–1,100°C for 1–2 hours accelerates alumina layer formation, extending service life by up to 50%.

Tags:

heat resistant wire,

Resistance Wire,

nickel chromium

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0Cr27Al7Mo2 Resistance Alloy Fe-Cr-Al-Mo Alloy For Heat Aggressive Environments

MOQ:	150kgs
Price:	Negotiatable
Standard Packaging:	carton, plywood pallet
Delivery Period:	2-30days
Payment Method:	L/C,T/T,Western Union
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

0Cr27Al7Mo2

Applications:

Heating Elements, Resistors, Thermocouples, Furnace Parts

Corrosion Resistance:

Excellent

Tensile Strength:

600-800 MPa

Elongation:

20-30%

Electrical Resistivity:

0.1-0.15 μΩ·m

Magnetic Properties:

Non-magnetic

Composition:

Nickel, Chromium, Iron, Copper

Density:

8.4-8.7 G/cm3

Hardness:

150-200 HB

Thermal Conductivity:

11-13 W/m·K

Coefficient Of Thermal Expansion:

13-15 × 10-6/K

Minimum Order Quantity:

150kgs

Price:

Negotiatable

Packaging Details:

carton, plywood pallet

Delivery Time:

2-30days

Payment Terms:

L/C,T/T,Western Union

Supply Ability:

300 Ton per Month

Highlight

600 MPa Resistance Alloy

800 MPa Resistance Alloy

ASTM alloy resistance

Product Description

0Cr27Al7Mo2 Resistance Wire – Advanced Fe-Cr-Al-Mo Alloy for Extreme Heat & Aggressive Environments

Description

Technical Specifications (Table)

Property	Value	Standard
Chemical Composition	Cr: 26–28%, Al: 6.5–7.5%, Mo: 1.5–2.5%	GB/T 1234, DIN 17470
	Fe: Balance, C: ≤0.08%, Si: ≤1.0%	ASTM B603 (similar)
Mechanical Properties	Tensile Strength: 650–800 MPa	ASTM E8
	Elongation: ≥12%
Physical Parameters	Density: 7.1 g/cm³	ISO 6892
	Melting Point: 1,520°C
	Electrical Resistivity: 1.50 μΩ·m

Applications

Industrial Furnaces: Heating elements for glass melting tanks, ceramic sintering, and steel annealing.
Petrochemical: Ethylene cracker tubes, sulfur recovery units (SRUs), and hydrogen reformers.
Aerospace: Combustion chamber liners, turbine exhaust components, and rocket engine igniters.
Energy Production: Hydrogen electrolyzers, nuclear reactor heat exchangers, and syngas reactors.
Chemical Processing: Reactors handling molten salts, chlorinated hydrocarbons, and sulfuric acid.

Q&A

Q2: What is the maximum continuous operating temperature in reducing atmospheres?
A: 1,400°C in reducing or vacuum environments, with optimal performance in hydrogen or inert gases.

Q3: Is pre-oxidation required for new heating elements?
A: Yes. Heat treatment at 1,000–1,100°C for 1–2 hours accelerates alumina layer formation, extending service life by up to 50%.

Tags: