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  • Refractory Cordierite Ceramic Heating Element Holder
  • Refractory Cordierite Ceramic Heating Element Holder
  • Refractory Cordierite Ceramic Heating Element Holder
  • Refractory Cordierite Ceramic Heating Element Holder
  • Refractory Cordierite Ceramic Heating Element Holder
  • Refractory Cordierite Ceramic Heating Element Holder
Refractory Cordierite Ceramic Heating Element Holder

Refractory Cordierite Ceramic Heating Element Holder

  • 50 - 199 Pieces
    $2
  • >= 200 Pieces
    $1.50

Customization:

Customized logo(Min.Order: 200 pieces)
Customized packaging(Min.Order: 200 pieces)
Graphic customization(Min.Order: 200 pieces)
View product details

Refractory Cordierite Ceramic Heating Element Holder

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • High-Temperature Support: Designed to securely hold heating elements in furnace kilns and industrial machinery, leveraging cordierite and alumina ceramics for卓越的耐高温性能 (excellent high-temperature resistance) up to 1400°C.
  • Structural Versatility: Customizable shapes (cylindrical, rectangular, circular) with mounting holes or slots for precise installation in furnaces, kilns, and machinery components.

Key features

  • 1. Material Technology: Thermal Shock Resistance

    • With cordierite ceramic material, you can withstand extreme temperature fluctuations without cracking, outperforming metal-based alternatives in high-heat environments*. The alumina ceramic composition further enhances chemical stability and wear resistance, ideal for corrosive industrial settings.

  • 2. Structural Design: Customizable Mounting Solutions

    • With pre-engineered holes and modular shapes, you can easily adapt the holder to fit diverse furnace kiln configurations, reducing installation time compared to generic components*. The uniform ceramic construction ensures seamless integration with existing machinery.

  • 3. Performance Parameters: High-Temperature Endurance

    • With a maximum operating temperature of 1,300°C, you can sustain continuous use in industrial furnaces, outlasting standard refractory materials by up to 30% in longevity*. The structural ceramic design maintains rigidity under prolonged thermal stress.

  • 4. Scenario Solutions: Commercial-Grade Reliability

    • Designed for 24/7 operation in commercial kilns, you can ensure uninterrupted heating element support, minimizing downtime compared to non-refractory alternatives*. The ceramic material’s low thermal expansion prevents deformation during prolonged use.

  • 5. Certification Standards: Environmental and Safety Compliance

    • With RoHS certification and EPR compliance (France/Germany), you can meet strict international regulations for hazardous substance limits and sustainable packaging*, enhancing market accessibility in EU markets.

  • Notes:

    • The product’s cordierite ceramic is emphasized for thermal shock resistance, a key advantage over metals like stainless steel.

Product details

Refractory Cordierite Ceramic Heating Element Holder

The Refractory Cordierite Ceramic Heating Element Holder is a high-performance industrial component designed for furnace kilns and structural applications. Crafted from advanced alumina and cordierite ceramics, it offers exceptional thermal stability, chemical resistance, and mechanical strength. Certified to EU EPR and RoHS standards, this product ensures compliance with environmental and safety regulations while delivering durability in harsh industrial environments.

Technical specifications

FeatureSpecificationApplication Scenario
MaterialAlumina (1700°C max) & Cordierite (1400°C max) ceramic blendsHigh-temperature furnace fixtures, kiln components
CertificationsEPR France/Germany Packing, RoHS compliantEU-compliant industrial machinery parts
Temperature ResistanceMaintains structural integrity up to 1400°C (cordierite) or 1700°C (alumina)Withstanding extreme heat in forging/annealing
Chemical StabilityResistant to acids, alkalis, and corrosive gasesChemical processing equipment, lab fixtures
Processing ServiceCustom cutting and shaping to meet dimensional requirementsTailored components for specialized machinery
Structural IntegrityHigh compressive strength (≥250 MPa) and low thermal expansionLoad-bearing parts in heavy-duty kilns

Customization guide

Adjustable parameters include shape, size, and material composition (alumina/cordierite ratios) to meet specific thermal, chemical, or mechanical needs. For instance, increasing cordierite content enhances thermal shock resistance for rapid temperature cycling applications.

Get inspired

With its versatile ceramic materials and precision engineering, this holder is ideal for industries requiring components that endure extreme conditions. Use it to build energy-efficient kilns, chemical-resistant lab fixtures, or structural parts in high-temperature manufacturing.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Temperature Resistance (°C)1200+15% (1380)+30% (1560)*
Chemical StabilityAcid/Alkali+20% more corrosion resistanceFull corrosive resistance
Mechanical Strength (MPa)250287.5 (+15%)325 (+30%)
Dimensional Tolerance±0.5mm±0.3mm±0.1mm

Supplier's note

  1. Technical Breakthroughs:

    • Material Synergy: Cordierite-alumina blends reduce thermal expansion by 18% compared to traditional ceramics.
    • Triple-Resistant Coating: Pro Model’s chemical stability exceeds industry standards by 300% for harsh environments.
    • Precision Engineering: ±0.1mm tolerance in Pro Model ensures seamless integration with automated machinery.

  2. Version Selection Guide:

    • Base Model: Ideal for standard furnace fixtures where temperatures ≤1200°C and basic chemical resistance suffice.
    • Advanced Model: Optimal for applications requiring 20% faster thermal cycling (e.g., semiconductor annealing).
    • Pro Model: Best for extreme scenarios like aerospace furnace components or corrosive chemical processing. With its 1560°C tolerance, it outperforms competitors by 20% in thermal endurance.

*Pro Model’s max temp rating achieved with alumina-cordierite composite.

Frequently asked questions

  • Which refractory ceramic heating element holder suits high-temperature furnace applications?

  • How do I maintain cordierite ceramic furnace fixtures for longevity?

  • Cordierite vs Alumina Ceramic: Which is better for kiln fixtures?

  • Can I customize refractory ceramic parts for industrial ovens?

  • Are these ceramic heating element holders EPR-certified for EU markets?

  • What makes your ceramic furnace parts suitable for corrosive environments?

  • Do the holes in ceramic heating element holders serve a functional purpose?

  • Which ceramic material handles thermal expansion best for industrial machinery?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Refractory Ceramic Components (User's Product)Industrial furnaces, kilns, high-temperature machineryMax Temp: 1260°C (cordierite) ▲ 1700°C (alumina ceramic)
Chemical Resistance: Withstands 50+ chemicals (ASTM D543) ▲ 100+ chemicals
Certifications: RoHS, EPR France/Germany
Processing: Cutting ▲ CNC Machining		High temp resistance (up to 1700°C), chemical stability, certifications for compliance, customizable processingHigher cost than metal, brittle, requires careful handling
Metal Alloy Heating ElementsLower-temperature furnaces, automotive partsMax Temp: 800°C (stainless steel)
Thermal Conductivity: High (15-21 W/m·K)
Corrosion Resistance: Moderate (needs coating)		Durable, cost-effective, good thermal conductivityLower temp limit, heavier, prone to corrosion without coating
Graphite-Based ComponentsHigh-temperature labs, semiconductor equipmentMax Temp: 3000°C (inert environments)
Thermal Conductivity: Excellent (100-200 W/m·K)
Weight: Lightweight (1.6-2.3 g/cm³)		Extremely high temp resistance, lightweightBrittle, requires inert environment, expensive
Traditional Refractory BricksLarge industrial kilns, blast furnacesMax Temp: 1600°C
Density: 2.5 g/cm³
Customization: Limited shapes		Cost-effective for large-scale, high tempHeavy, bulky, limited customization
Advanced Ceramic CompositesAerospace, high-performance enginesMax Temp: 2000°C+
Strength: High (500 MPa)
Weight: Lightweight (2.0 g/cm³)		Superior performance, lightweightExtremely expensive, complex manufacturing
Plastic Insulation MaterialsLow-temperature insulation, electrical partsMax Temp: 150°C
Lightweight: Yes (0.5 g/cm³)
Flammability: Moderate (UL94 V-0 rated)		Lightweight, cost-effectiveLow temp limit, flammable

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