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0Cr13Al4 Resistance Wire Oxidation Resistance For Industrial Domestic Heating

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0Cr13Al4 Resistance Wire Oxidation Resistance For Industrial Domestic Heating

Name: 0Cr13Al4 Resistance Wire Oxidation Resistance For Industrial Domestic Heating
Brand: NikTech
Price: 1 USD

MOQ : 150kgs

Price : Negotiatable

Payment Terms : L/C,T/T,Western Union

Supply Ability : 300 Ton per Month

Delivery Time : 2-30days

Packaging Details : carton, plywood pallet

Place of Origin : China

Brand Name : NikTech

Certification : ISO 9001:2008

Model Number : 0Cr13Al4

Electrical Resistivity : 1.0 μΩ·m

Thermal Conductivity : 11.4 W/m·K

Hardness : 200-300 HB

Thermal Expansion Coefficient : 13.5 × 10-6/K

Specific Heat Capacity : 460 J/kg·K

Tensile Strength : 600-800 MPa

Elongation : 20-30%

Coefficient Of Thermal Expansion : 13.5 × 10-6/K

Density : 8.4 g/cm3

Corrosion Resistance : Excellent

Material : Nickel-chromium alloy

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0Cr13Al4 Resistance Wire – Reliable Oxidation Resistance & Energy Efficiency for Industrial & Domestic Heating

Description

0Cr13Al4 resistance wire is an iron-chromium-aluminum (Fe-Cr-Al) alloy designed for cost-effective heating applications requiring moderate-temperature stability and corrosion resistance. Composed of 12–14% chromium, 3.5–5.0% aluminum, and balanced iron, this alloy forms a protective alumina (Al₂O₃) layer at temperatures up to 1,100°C (2,012°F), ensuring durability in oxidizing and mildly corrosive environments. Its low carbon content (≤0.08%) and controlled silicon (≤1.0%) minimize embrittlement, making it ideal for heating elements in industrial furnaces, household appliances, and automotive systems where operational costs and longevity are critical.

Certified to GB/T 1234 and DIN 17470 standards, the 0Cr13Al4 wire achieves a tensile strength of 450–600 MPa and a surface load capacity of 1.8 W/cm², offering a budget-friendly alternative to nickel-chromium alloys. With a high electrical resistivity (1.25 μΩ·m) and low temperature coefficient of resistance (TCR), it ensures stable energy output in air or dry inert atmospheres, balancing performance and affordability for mid-range thermal applications.

Technical Specifications (Table)

Property	Value	Standard
Chemical Composition	Cr: 12–14%, Al: 3.5–5.0%, Fe: Balance	GB/T 1234, DIN 17470
	C: ≤0.08%, Si: ≤1.0%, Mn: ≤0.7%	ASTM B603 (similar)
Mechanical Properties	Tensile Strength: 450–600 MPa	ASTM E8
	Elongation: ≥20%
Physical Parameters	Density: 7.3 g/cm³	ISO 6892
	Melting Point: 1,480°C
	Electrical Resistivity: 1.25 μΩ·m

Applications

Industrial Heating: Low-cost heating elements for drying ovens, industrial kilns, and heat treatment equipment.
Consumer Appliances: Toaster coils, electric irons, and space heaters.
Automotive: Seat heaters, defrosting systems, and auxiliary heating units.
Agriculture: Livestock heating panels and greenhouse temperature control systems.
Electrical Systems: Resistors and precision heating components in electronic devices.

Q&A

Q1: What is the maximum continuous operating temperature for 0Cr13Al4 wire?
A: 1,000°C in continuous use and 1,100°C for short-term operations, ideal for applications below severe thermal stress.

Q2: Can this alloy resist sulfur-containing atmospheres?
A: Limited resistance. For sulfur-rich environments above 600°C, consider higher-grade Fe-Cr-Al alloys like 0Cr21Al6.

Q3: Is pre-oxidation treatment necessary for new heating elements?
A: Recommended. Heat-treat at 850–950°C for 1–2 hours to enhance the protective alumina layer and extend lifespan.

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