English
Truck Scale Manufacturer

Leading Heating Resistance Wire Factory Since 2002

● Strict Control Of Raw Materials
● 100% Quality Inspection
● More Than 20 Years Of Experience In The Industry
● 12,000m² Self-owned Factory
● Annual Production Capacity Of 1200 Tonnes
Request a Quote

Heating Resistance Wire Manufacturer & Supplier

DLX Alloy specializes in manufacturing and supplying high-quality Heating Resistance Wire available in various compositions, forms, and specifications. Our premium wires are designed for superior heat resistance, oxidation resistance, and durability, ensuring safety and performance. These eco-friendly materials are engineered for high-temperature applications, offering excellent corrosion resistance and stability. We provide a wide range of Heating Resistance Wire products, including wires, strips, and custom forms tailored to your needs.

Looking to purchase a bulk order of Heating Resistance Wires? DLX Alloy can meet your production requirements. If you have specific needs not listed here, feel free to request customization. Contact us today, and we’ll be happy to assist you!
 
Heating resistance wires are typically made of nickel-chromium (NiCr) or iron-chromium-aluminum (FeCrAl) alloys, which exhibit high electrical resistivity and high-temperature resistance.They are widely used in electric boilers, industrial furnaces, household appliances, and aerospace heating systems.

High-quality wires require oxidation resistance, thermal stability and long-term reliability, with specific alloys selected for distinct temperature environments.

Different Material of Heating Resistance Wire

FeCrAl Heating Resistance Wire

NiCr Heating Resistance Wire

CuNi Heating Resistance Wire

Still not finding what you're looking for? Contact our consultants for more available products.

10002 (1)

FeCrAl Heating Resistance Wire Features

 FeCrAl alloy has a high melting point, typically above 1400°C, and can maintain stable performance at 1200°C for extended periods.
 At high temperatures, the aluminum in the alloy forms a dense aluminum oxide (Al₂O₃) protective film, which prevents further oxidation and enhances durability.
 The material exhibits low volatility and strong sulfur resistance, ensuring long-term stability while reducing material loss and replacement frequency.
 It has high resistivity with minimal resistance variation at elevated temperatures, making it highly suitable for heating applications.
 Compared to Nickel-Chromium alloys, FeCrAl alloy offers similar or superior performance at a lower cost, providing a more cost-effective solution for industrial heating applications.

FeCrAl Heating Resistance Wire Applications

100003168
 

Industrial Furnaces

 
Used as heating elements in melting furnaces, annealing furnaces, and other high-temperature systems.
100002970
 

Household Appliances

 
Commonly found in ovens, heaters, and portable electric heating devices.
 
100003069
 

Far-infrared Devices

 
Utilized for efficient heat radiation applications.
 
  
100003267
 

Nuclear Engineering

 
Potential use in nuclear reactor components due to its high-temperature stability.
  
100002871
 

Additive Manufacturing (3D printing)

 
Ideal for high-temperature component fabrication in specialized manufacturing processes.

FeCrAl Heating Resistance Wire

Chemical Composition

Grades 1Cr13Al4 0Cr25Al5 0Cr21Al6
(Kanthal A1)		 0Cr23Al5
(Kanthal D)		 0Cr21Al4 0Cr21Al6Nb 0Cr27Al7Mo2
Main Chemical Composition (%) Chromium (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
Aluminum (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
Other Additions Opportune Opportune Opportune Opportune Opportune Opportune Opportune
Iron (Fe) Rest Rest Rest Rest Rest Rest Rest
            Nb0.5 Mo1.8-2.2

Physical & Mechanical Properties

Grades 1Cr13Al4 0Cr25Al5 0Cr21Al6
(Kanthal A1)		 0Cr23Al5
(Kanthal D)		 0Cr21Al4 0Cr21Al6Nb 0Cr27Al7Mo2
Max. Service Temperature (°C) 950 1250 1250 1250 1100 1350 1400
Resistivity at 20℃ (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.ºC) 52.7 46.1 63.2 60.2 46.9 46.1 --
Coefficient of Lines Expansion (α×10⁻⁶/20~1000ºC) 15.4 16 14.7 15 13.5 16 16
Melting Point (°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
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/ºC) -- ≥80/1300 ≥80/1300 ≥80/1300 ≥80/1250 ≥50/1350 ≥50/1350
Micrographic Structure Ferrite Ferrite Ferrite Ferrite Ferrite Ferrite Ferrite
Magnetic Properties Magnetic Magnetic Magnetic Magnetic Magnetic Magnetic Magnetic

Standard Compliant

Our production adheres to JIS G4313 standards, ensuring compliance with international quality benchmarks.
Equivalent overseas standards are listed for reference.
ISO 80000, 15156 (NACE MR0175)
IEC 60115-1, 60695
ASTM A801/A801M, E1409
EN E1409
DIN 17175
BS EN 10295
SAE AMS 5524
UL 746B
JIS G4905, Z2371
GB/T 1234, 10067.1-10067.3, 13304.1, 2820
nicr wire (39)

NiCr Heating Resistance Wire Features

 Maintains mechanical stability at high temperatures between 1100°C - 1200°C, preventing deformation and structural degradation
Forms a protective chromium oxide layer, preventing oxidation and surface degradation, making it ideal for extreme environments
Provides high electrical resistance, making it suitable for electrical heating elements and resistance wires
Ideal for applications where magnetic interference must be minimized, ensuring reliable performance in electronics and aerospace applications
Remains ductile and easy to process, even after prolonged high-temperature exposure
Withstands frequent temperature fluctuations, making it ideal for industrial heating systems and automotive exhaust applications
Due to its high durability and minimal permanent elongation, NiCr alloy components retain their structural integrity over extended use providing longer service life

NiCr Heating Resistance Wire Applications

100003168
 

Industrial & Domestic Heating Systems

 
Used as heating elements in industrial and residential electric furnaces, including electric resistance wires and heating coils.
Aerospace-Components
 

Aerospace Components

 
Applied in aircraft engine parts and aerospace structural components requiring high-temperature durability.
 
Chemical&Petrochemical-Processing
 

Chemical&Petrochemical Processing

 
Resistant to corrosive environments, making it ideal for reactor vessels, pipelines, and processing equipment.
100003069
 

Electronics & electrical engineering

 
Commonly used in resistors, sensors, and other precision electronic components.
100002871
 

Automotive Industry

 
Essential for turbochargers, exhaust systems, and other high-temperature components.
  
medical-equipment
 

Medical Equipment

 
Utilized in dental prosthetics (e.g., porcelain-fused-to-metal crowns) and orthopedic implants due to its biocompatibility and durability
100003267
 

Nuclear Engineering

 
Critical for nuclear power plant components exposed to extreme radiation and high temperatures.
  

NiCr Heating Resistance Wire

Chemical Composition

Grades Cr10Ni90 Cr20Ni80 Cr30Ni70 Cr15Ni60 Cr20Ni35 Cr20Ni30
Main Chemical Composition (%) Nickel (Ni) 90 Rest Rest 55.0-61.0 34.0-37.0 30.0-34.0
Chromium (Cr) 10 20.0-23.0 28.0-31.0 15.0-18.0 18.0-21.0 18.0-21.0
Iron (Fe) -- ≤1.0 ≤1.0 Rest Rest Rest

Physical & Mechanical Properties

Grades Cr10Ni90 Cr20Ni80 Cr30Ni70 Cr15Ni60 Cr20Ni35 Cr20Ni30
Max. Service Temperature (°C) 1300 1200 1250 1150 1100 1100
Melting Point (°C) 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.ºC) -- 60.3 45.2 45.2 43.8 43.8
Coefficient of Lines Expansion (α×10⁻⁶/20~1000ºC) -- 18 17 17 19 19
Micrographic Structure -- Austenite Austenite Austenite Austenite Austenite
Magnetic Properties -- Non-magnetic Non-magnetic Non-magnetic Weak magnetic Weak magnetic

Standard Compliant

Our production adheres to JIS G4313 standards, ensuring compliance with international quality benchmarks.
Equivalent overseas standards are listed for reference.
ISO 6208, 15156
ASTM B163, B166, B167, B168, B446
DIN 17742, 17750
AMS 5540, 5666
GB/T 1234, 2077, 4437
cuni2 (2)

CuNi Heating Resistance Wire Features

 Exceptional performance in seawater, chloride solutions, and other corrosive environments, resisting pitting and crevice corrosion
Suitable for applications requiring significant load-bearing capacity or high pressure
Easily welded, cold-processed, hot-processed, and forged, facilitating the production of complex parts
Ideal for high-speed motion and high-friction environments, reducing wear and fatigue damage
Low magnetic permeability, which is crucial for applications sensitive to magnetic fields
Stable electrical resistance and excellent conductivity with low temperature coefficients
Resistant to microorganisms and algae growth, especially beneficial in long-term water-contact applications

CuNi Heating Resistance Wire Applications

Marine
 

Marine engineering

 
Used in shipbuilding, offshore platform construction, and heat exchangers for desalination plants.
  
Chemical-industry
 

Chemical industry

 
Utilized in the manufacture of reaction vessels, piping, and other equipment exposed to chemicals.
  
Power-and-energy
 

Power and energy

 
Found in cooling system components for nuclear and thermal power plants.
 
Chemical&Petrochemical-Processing
 

Oil and gas extraction

 
Applied in oil well tubing, subsea pipelines, and other components exposed to harsh conditions.
  
Aerospace-Components
 

Aerospace

 
Used for various aircraft structural parts and engine components.
 
  
telecom
 

Telecommunications

 
Employed in antenna coils, magnetic cores for electronic circuits, and small transformers.
  
medical-equipment
 

Medical equipment

 
Used in non-magnetic components of medical machines such as MRI scanners.
  

CuNi Heating Resistance Wire

Chemical Composition

Grades NC003 NC005 NC010 NC012 NC015 NC020 NC025 NC030 NC035 NC040 NC050
CuNi1 CuNi2 CuNi6 CuNi8 CuNi10 CuNi14 CuNi19 CuNi23 CuNi30 CuNi34 CuNi44
Main Chemical Composition (%) Nickel (Ni) 1 2 6 8 10 14.2 19 23 30 34 44
Manganese (Mn) / / / / / 0.3 0.5 0.5 1 1 1
Copper (Cu) Rest Rest Rest Rest Rest Rest Rest Rest Rest Rest Rest

Physical & Mechanical Properties

Grades NC003 NC005 NC010 NC012 NC015 NC020 NC025 NC030 NC035 NC040 NC050
CuNi1 CuNi2 CuNi6 CuNi8 CuNi10 CuNi14 CuNi19 CuNi23 CuNi30 CuNi34 CuNI44
Max. Service Temperature (°C) 200 200 220 250 250 300 300 300 350 350 400
Density (g/cm³) 8.9 8.9 8.9 8.9 8.9 8.9 8.9 8.9 8.9 8.9 8.9
Resistivity at 20℃ (μΩ·m) 0.03±10% 0.05±10% 0.10±10% 0.12±10% 0.15±10% 0.20±5% 0.25±5% 0.30±5% 0.35±5% 0.40±5% 0.5±5%
Resistance Temperature Coefficient ×10⁻⁶/ºC (20~600ºC) <100 <120 <60 <57 <50 <38 <25 <16 <10 0 210
Tensile Strength (Mpa) >210 >220 >250 >270 >290 >310 >340 >350 >400 >400 >420
Elongation at Rupture (%) >25 >25 >25 >25 >25 >25 >25 >25 >25 >25 >25
Melting Point (°C) 1085 1090 1095 1097 1100 1115 1135 1150 1170 1180 1280
Thermoelectric Potential of Copper (μV/℃) (0~100℃) -8 -12 -18 -22 -25 -28 -32 -34 -37 -39 -43

Standard Compliant

Our production adheres to JIS G4313 standards, ensuring compliance with international quality benchmarks.
Equivalent overseas standards are listed for reference.
ISO 13380, 197-6
ASTM B111, B151, B466, B122
DIN 86019, 17664
AMS 12449, 12451
GB/T 5231, 8890, 2059

Production Process of Heating Resistance Wire

DLX Alloy has over 20 years of experience in manufacturing custom Heating Resistance Wires with innovative compositions and forms. Elevate your industrial applications with our comprehensive offerings as a leading Heating Resistance Wire manufacturer. From high-performance wires to tailored alloy designs, we specialize in crafting premium Heating Resistance Wires that embody durability, heat resistance, and superior quality.
  • Ingredients-Strip
    1.Ingredients
  • 2
    2.Smelting
  • 3
    3.Hot-rolling
  • 4
    4.Heat Treatment
     
  • 5
    5.Wire Drawing
  • 6
    6.Heat Treatment Annealing
  • 7
    7.Detecting
  • 8
    8.Packing
FeCrAl-Alloy
Steps DZX Do Time
Confirmation of product parameters and application We confirm the product according to the demand Immediate
Sample customization In stock or confirm OEM/ODM customization Immediate
Production and processing Confirmation of production as well as product testing 7-15 days
Packaging and Transportation Using carton + preservative film + pallet According to the national

How Does DLX ALLOY Control The Quality?

  

 

1.Raw Material Purchase Control

 
Establish long-term co-operation with reputable raw material suppliers to ensure the quality stability of raw materials.
Each batch of raw materials are required to provide quality documents (such as raw material reports, composition test reports, etc.).
Through professional incoming material testing, including chemical equipment composition analysis and mechanical performance testing, to ensure compliance with technical requirements.
 

  

 

2. Production process control

 
On-line inspection of key production nodes, such as dimensional measurement, strength test, etc., to ensure that the products at each stage are qualified.
Real-time monitoring of heat treatment, welding and other processes to ensure that the process parameters meet the design requirements.
 
 
 
 

  

 

3. Finished product quality testing

 
Chemical composition analysis: confirm the product composition by spectral analyser.
Mechanical performance test: including axial, impact, elasticity and other tests.
Non-destructive testing: Ensure that the products are free of cracks, air holes and other defects through scanning, ray testing, magnetic particle or penetration testing.
Appearance testing: check whether the product surface is smooth and free of scratches, rust or other surface defects.

Heating Resistance Wire Wholesale

Heating Resistance Wire for Industrial Heating – Bulk Wholesale Available,we specialize in manufacturing and supplying Heating Resistance Wire products in bulk.Our materials are widely used for electric heating elements, cutting machines, furnace components, and more.For large quantities, we have more discounts.
Resistance-wire-heating-alloy

Looking to Purchase in-stock Items? Click Here to Check More

Best-in-Class Heating Resistance Wire Factory

Changzhou DLX Alloy Company was established in 2002 as a professional alloy materials manufacturer. We specialize in the development and production of various metal alloys, including FeCrAl alloys, NiCr alloys, copper-nickel alloys, Inconel alloys, and Hastelloy alloys. These materials can be processed into pipes, pipe fittings, rods, plates, and wires according to your specific needs. Our alloys are widely used in industries such as aerospace, energy, automotive, medical equipment, chemicals, and electronics, receiving consistent praise from our clients.

Our alloy material products have been exported to over 130 countries and regions globally, including South Asia (20%), South America (15%), and Western Europe (15%), establishing long-term cooperation with several international aerospace manufacturers, power companies, and automotive parts suppliers.
100000033

Why Choose DLX Heating Resistance Wire?

One-stop Solution

 
We have established in-depth strategic cooperation with many metal and alloy production bases, covering the product lines from base metals to high-end special alloys.
 
  

Professional R&D Team

 
The company has its own technical research and development team, whose members are senior experts in the field of metal, and we can provide you with exclusive customised metal products according to your specific chemical compositions, special dimensions and specifications.

Full Set of Certification

 
The company has passed a number of international certifications (ISO 9001, CE, RoHS, etc.), to achieve strict control of raw materials, the production process of multi-stage testing and monitoring to ensure that each product can meet customer requirements.
  

Strong Supply Chain Cost Control

 
With years of deep ploughing and accumulation of massive orders, efficient logistics planning and accurate inventory management, significantly compressed purchasing, transport and warehousing costs. Giving dealers more competitive prices and reserving sufficient profit margins; we can flexibly respond to emergency replenishment.

Frequently Asked Questions

Heating Resistance Wire FAQ

Factory FAQ

Contact

Get In Touch

We implement comprehensive quality control at every stage, including raw materials, production processes, and finished products.
Email dlx-group@dlx-alloy.com
Phone 0086-1990 6119 641
Address NO.32 West Taihu Road, Xinbei District, Changzhou, Jiangsu,China
Follow Us
Inquiry
Products
About Us
© COPYRIGHT 2025 CHANGZHOU DLX ALLOY CO., LTD. ALL RIGHTS RESERVED.