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High-Temperature Silicon Carbide (SiC) Heating Elements with 1550°C Capability and Customized Sizes

Basic Properties
Place of Origin: China
Brand Name: KEGU
Model Number: Customizable
Trading Properties
Price: 200-500 yuan/kg
Payment Terms: L/C,D/A,D/P,T/T,Western Union,MoneyGram
Supply Ability: 2,000 pcs/month
Product Summary
High-Temperature Silicon Carbide (SiC) Heating Elements | 1550°C Capability Discover durable, economical Silicon Carbide (SiC) heating elements engineered for extreme environments up to 1550°C. These premium heating solutions are ideal for metallurgy, ceramics, glass manufacturing, and laboratory ...

Product Details

Highlight:

customized heating elements

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customized sic heater elements

Material: SiC
Composition:SiC: >85%
Color: Black
Density: 2.5~2.6g/cm³
Max. Service Temp: 1380℃
Flexural Strength: 70-90 MPa
Size: Customized
Heat Conduction: 23.26 W/(m·℃)
Resistivity: 1000~2000 Ω·mm2/m
Tensile Strength: 39.2~49 MPa
Max. Service Temp.: 1500℃
Linear Thermal Expansion Coefficient (20-1500℃): 5×10⁻⁶/℃
Electrical Resistivity: 1000~2000Ω·mm²/m
Product Description
High-Temperature Silicon Carbide (SiC) Heating Elements | 1550°C Capability
Discover durable, economical Silicon Carbide (SiC) heating elements engineered for extreme environments up to 1550°C. These premium heating solutions are ideal for metallurgy, ceramics, glass manufacturing, and laboratory equipment applications.
Silicon Carbide (SiC) Electric Heating Elements
Silicon Carbide (SiC) heating elements are premium non-metal electric heaters specifically designed for extreme temperatures and harsh industrial environments. Manufactured from high-purity green silicon carbide, they undergo precise forming, siliconizing, and recrystallization processes at high temperatures to deliver reliable, long-lasting performance. These elements represent the optimal economical solution for demanding high-temperature applications.
Key Applications of SiC Heating Elements
  • Electronics Manufacturing
  • Metallurgical Processing
  • Aluminum & Zinc Industries
  • Ceramics & Porcelain Kilns
  • Float Glass Production
  • Optical Glass Manufacturing
  • Laboratory & Research Furnaces
  • Fluorescent Powder Processing
Operating Guidelines: Surface Load & Atmospheric Effects
For optimal performance and extended lifespan, it is crucial to operate within recommended surface load limits based on your furnace atmosphere and temperature conditions.
Atmosphere Max. Furnace Temp. (°C) Max. Surface Load (W/cm²) Effect on SiC Element
Ammonia (NH₃) 1290 3.8 Produces methane, damaging the protective SiO₂ layer
Carbon Dioxide (CO₂) 1450 3.1 Corrosive to silicon carbide
Carbon Monoxide (CO) 1370 3.8 Carbon deposition can impair the SiO₂ layer
Halogen Gases 704 3.8 Highly corrosive; destroys SiO₂ layer
Hydrogen (H₂) 1290 3.1 Produces methane, damaging the protective SiO₂ layer
Nitrogen (N₂) 1370 3.1 Can form an insulating silicon nitride layer
Sodium Vapor 1310 3.8 Corrosive to silicon carbide
Silicon Dioxide 1310 3.8 Corrosive to silicon carbide
Oxygen / Air 1310 3.8 Oxidizes SiC (forms protective SiO₂ at correct temps)
Water Vapor 1090-1370 3.1-3.6 Forms silicon hydrates, accelerating aging
Hydrocarbons 1370 3.1 Carbon pickup leads to "hot spot" failure
How to Order: Required Specifications
Please provide the following details for a quote or order:
  • Type: (e.g., Standard "U" Shape)
  • Outer Diameter (OD): in mm or inches
  • Hot Zone Length (HZ): The heated section length
  • Cold End Length (CZ): The unheated terminal section length
  • Shank Spacing (A): Center-to-center distance between cold ends
  • Overall Resistance: Rated resistance in ohms (Ω)
Ordering Example
Specification: U-Type, 20mm OD, 300mm Hot Zone, 200mm Cold Ends, 60mm Shank Spacing, 1.84Ω Resistance
SiC U20/300/200/60/1.84Ω
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