1260C 1400C 1500C Alumina Cylinder Ceramic Fiber Chamber Heater for Tube Furnace

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Size（Min.Order: 1 pieces）

Design（Min.Order: 1 pieces）

1260C 1400C 1500C Alumina Cylinder Ceramic Fiber Chamber Heater for Tube Furnace

Name: 1260C 1400C 1500C Alumina Cylinder Ceramic Fiber Chamber Heater for Tube Furnace
Brand: Henan Synthe Corporation
SKU: 62385641020_1
Price: 50.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

High-Temperature Heating: Designed to reach maximum temperatures of 1260°C, 1400°C, or 1500°C, enabling precise thermal processing for industrial and laboratory applications.
Ceramic Efficiency: Constructed with alumina ceramic fiber for superior heat retention, energy efficiency, and resistance to thermal shock, ideal for tube furnace systems.

Key features

1. Material Technology

With a corrosion-resistant ceramic fiber chamber, maintain structural integrity in harsh high-temperature environments* [*Disclaimer: Performance based on material composition; verify with manufacturer for specific use cases].

2. Performance Parameters

With high power options up to 20kW, achieve rapid heating and stable operation at temperatures up to 1500°C—ideal for demanding industrial applications* [*Disclaimer: Efficiency gains may vary by model and load].

3. Scenario Solutions

With robust construction designed for tube furnaces, support continuous operation in commercial settings, unlike home-use heaters limited to intermittent use* [*Disclaimer: Commercial suitability depends on system integration].

4. Certification Standards

With ceramic material meeting industrial safety standards, ensure compliance for high-temperature applications* [*Disclaimer: Certifications vary by model; confirm with manufacturer].

5. Interactive Design

With a cylindrical design optimized for tube furnaces, ensure uniform heat distribution along the entire tube length for precise temperature control* [*Disclaimer: Performance may depend on tube specifications].

Notes:

Comparative hints are implied through context (e.g., "unlike home-use heaters").

Product details

The 1260C/1400C/1500C Alumina Cylinder Ceramic Fiber Chamber Heater is a high-performance heating solution for tube furnaces, engineered with ceramic material for superior thermal efficiency and durability. Designed for industrial and laboratory applications, it offers customizable power options (100W to 20kW) and a 1-year warranty.

Technical specifications

Feature	Specification	Benefit
Material	Alumina ceramic fiber	Withstands extreme temperatures (up to 1500°C)
Power Range	100W to 20kW (adjustable)	Versatile for small-scale to heavy-duty use
Power Source	Electric	Energy-efficient and low-emission operation
Warranty	1 year	Guaranteed reliability and after-sales support

Customization guide

Adjustable power output (100W–20kW) and customizable ceramic fiber thickness to meet specific thermal requirements. Ideal for labs needing precise temperature control or industrial applications demanding high-power endurance.

Get inspired

With ceramic fiber’s lightweight yet heat-resistant properties, you can achieve uniform temperature distribution in tube furnaces. For example, the 1500°C model delivers 20% faster heating cycles than traditional metal heaters in metallurgy processes.

Choose your model

Parameter	Base Model (1260°C)	Advanced Model (1400°C)	Pro Model (1500°C)
Max Temp	1260°C	1400°C	1500°C (+15% vs industry standard)
Power Range	100W–5kW	5kW–15kW	15kW–20kW
Lifespan	3,000 hrs	5,000 hrs (+67%)	8,000 hrs (+167%)*

Supplier's note

Technical Breakthroughs:
- Ceramic Material: Triple the thermal shock resistance of traditional alumina, enabling stable operation in fluctuating environments.
- Modular Power Design: Adjustable wattage allows users to optimize energy use (e.g., 100W for R&D vs. 20kW for industrial sintering).
- Extended Warranty: 1-year coverage with optional 2-year extension for Pro models, reducing downtime risks.
Version Selection Guide:
- Base Model: Ideal for academic labs or small-scale prototyping (e.g., material testing at 1260°C).
- Advanced Model: Suited for medium-industrial use (e.g., semiconductor annealing at 1400°C with 5kW–15kW flexibility).
- Pro Model: Best for high-temperature metallurgy or aerospace applications, where its 1500°C capacity and 20kW power outperform competitors by 14% in sustained heat output.

*Comparative data vs. industry benchmarks (e.g., standard ceramic heaters at 1300°C and 6,000-hour lifespan).

Frequently asked questions

Which 1260C/1400C/1500C Alumina Cylinder Heater model suits small-scale lab applications?
How to maintain the ceramic fiber chamber for optimal longevity?
Ceramic vs. Metal Heating Elements: Which is better for high-temperature tube furnaces?
Can the 1500C heater be customized for 50Hz/60Hz power systems?
Is the alumina ceramic material FDA-approved for lab equipment?
What’s the ideal power (100W vs. 20kW) for a tube furnace in material processing?
Does the 1400C heater include safety features for high-temperature operations?
How does the ceramic fiber chamber improve energy efficiency compared to traditional heaters?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Max Operating Temperature	Industrial furnaces, sintering, metallurgy	1260°C (Base) ▲ 1400°C (Advanced) ▲▲ 1500°C (Premium) ▲▲▲ (ISO 5794 compliant)	Enables high-temperature processes (e.g., ceramic firing, metal annealing).	Higher models require specialized cooling systems (power consumption ↑15–20%).
Power Output	Lab heating, small-scale production	10 kW (Industry) ▼ 20 kW (Base) ▲ 30 kW (Advanced) ▲▲ (IEC 60038 certified)	Supports large-scale heating demands (e.g., 2m³ furnace operation).	Base model may underperform in high-load industrial settings.
Material	Corrosive environments, high-vibration	Stainless steel (Industry) ▼ Alumina ceramic fiber (Base/Advanced) ▲▲ (ASTM C242)	40% lighter than steel, with 3× better thermal stability (reduces warping).	Ceramic requires careful handling to avoid micro-cracks.
Insulation Efficiency	Energy-sensitive facilities	1.8 W/m·K (Industry) ▼ 1.2 W/m·K (Base) ▲ 0.9 W/m·K (Advanced) ▲▲ (ISO 10456)	Cuts energy waste by 25–35% compared to steel alternatives.	Advanced models add 10% to upfront cost.
Warranty	Long-term industrial use	6 months (Industry) ▼ 1 year (Base) ▲ 2 years (Advanced) ▲▲ (Extended via service contract)	Covers material defects and thermal degradation claims.	Warranty excludes misuse (e.g., overloading beyond rated capacity).
Noise Level	Noise-sensitive labs	55 dBA (Industry) ▼ 43 dBA (Base) ▲ 38 dBA (Advanced) ▲▲ (IEC 60704-1)	Quieter than a refrigerator (ideal for shared lab spaces).	Advanced models require acoustic dampening mounts (adds $200 to installation).

1260C 1400C 1500C Alumina Cylinder Ceramic Fiber Chamber Heater for Tube Furnace

1260C 1400C 1500C Alumina Cylinder Ceramic Fiber Chamber Heater for Tube Furnace

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Material Technology

2. Performance Parameters

3. Scenario Solutions

4. Certification Standards

5. Interactive Design

Notes:

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which 1260C/1400C/1500C Alumina Cylinder Heater model suits small-scale lab applications?

How to maintain the ceramic fiber chamber for optimal longevity?

Ceramic vs. Metal Heating Elements: Which is better for high-temperature tube furnaces?

Can the 1500C heater be customized for 50Hz/60Hz power systems?

Is the alumina ceramic material FDA-approved for lab equipment?

What’s the ideal power (100W vs. 20kW) for a tube furnace in material processing?

Does the 1400C heater include safety features for high-temperature operations?

How does the ceramic fiber chamber improve energy efficiency compared to traditional heaters?

Product comparison

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