K Type Temperature Sensor Integrated SiC Heater Thermocouple and Silicon Nitride Tube Thermocouple for Molten-Aluminum Bath

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K Type Temperature Sensor Integrated SiC Heater Thermocouple and Silicon Nitride Tube Thermocouple for Molten-Aluminum Bath

Name: K Type Temperature Sensor Integrated SiC Heater Thermocouple and Silicon Nitride Tube Thermocouple for Molten-Aluminum Bath
Brand: Jiangsu Plaza Premium Electric Instrument Co., Ltd.
SKU: 62201258509_1
Price: 54.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Precision Temperature Measurement: Designed to measure temperatures in high-thermal environments, such as molten-aluminum baths, with integrated K-type thermocouples for accuracy and reliability.
SiC Heater Integration: Combines a silicon carbide (SiC) heater with a silicon nitride tube to enable precise temperature control and uniform heat distribution in industrial processes.

Key features

1. Corrosion-Resistant Material Technology

With a corrosion-resistant metal body and ceramic protective sleeve, ensure durability in harsh environments like molten-aluminum baths. Outperforming standard models in corrosive settings*

2. Integrated SiC Heater for Enhanced Performance

With an integrated Si<sub>C</sub> heater, achieve rapid and stable temperature measurements. Reduces warm-up time by ~40% compared to non-heated thermocouples*

3. High-Temperature Scenario Adaptability

Designed for molten-aluminum baths, maintain accuracy in extreme environments up to 1300°C. Optimized for industrial foundries where conventional sensors fail*

4. RoHS Compliance for Eco-Friendly Use

With RoHS certification, ensure regulatory compliance and reduced environmental impact. Meets stricter safety standards than non-certified alternatives*

5. Modular Design for Custom Solutions

With modular components and adaptable connectors, simplify integration into existing systems. Enables 20% faster setup than rigid, non-modular designs*

Product details

The K Type Temperature Sensor Integrated SiC Heater Thermocouple and Silicon Nitride Tube Thermocouple for Molten-Aluminum Bath is a robust industrial-grade temperature measurement solution designed for high-temperature environments. Featuring a corrosion-resistant metallic body, a ceramic-like protective sleeve, and a modular design, this thermocouple ensures precise and reliable temperature readings in molten aluminum baths and other harsh industrial applications. Certified to RoHS standards, it combines durability, thermal protection, and flexibility for seamless integration into diverse systems.

Technical specifications

Feature	Specification	Application Scenario
Material	Stainless steel body, Silicon Nitride tube	Withstands corrosive environments and high-temperature exposure (up to 1400°C)
Sensor Type	K-Type thermocouple with SiC heater	Accurate temperature measurement in molten metal baths
Protection Sleeve	Ceramic-like thermal insulation	Shields sensor from mechanical damage and extreme heat
Connector Type	Modular metallic connector	Compatible with standard data acquisition systems
Certification	RoHS-compliant	Meets global environmental and safety standards
Temperature Range	-200°C to 1400°C	Ideal for molten aluminum, steel, and high-temperature industrial processes

Customization guide

Adjustable parameters include:

Sleeve Material: Swap ceramic for alternative high-temperature composites to match corrosive or abrasive conditions.
Sensor Length/Placement: Customize insertion depth for precise bath depth measurements.
Connector Adapters: Integrate with existing systems via standardized or bespoke interfaces.

Get inspired

With its modular design and Silicon Nitride tube, this thermocouple enables real-time temperature monitoring in molten aluminum baths, ensuring process stability and safety. Whether optimizing casting cycles or maintaining furnace efficiency, its rugged construction and wide temperature range provide unmatched reliability in extreme environments.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Temperature Range	-200°C to 1200°C	-200°C to 1350°C	-200°C to 1400°C*
Accuracy	±1.5°C	±0.8°C	±0.5°C
Response Time	5 seconds	3 seconds	1.5 seconds*
Material Grade	Standard stainless	High-nickel alloy	Inconel® 600

*Exceeds industry benchmarks by +15% (Pro Model) and +30% (Pro response time) compared to traditional K-type thermocouples.

Supplier's note

Technical Breakthroughs:
- SiC Heater Integration: Enhances sensor stability in molten baths by reducing thermal lag.
- Silicon Nitride Tube: Enables operation at 1400°C—20% higher than standard ceramic tubes.
- Modular Design: Reduces downtime by allowing rapid sleeve/connector swaps without full replacement.
Version Selection Guidance:
- Base Model: Ideal for standard aluminum foundries or labs requiring cost-effective monitoring up to 1200°C.
- Advanced Model: Preferred for steel or glass manufacturing where ±0.8°C accuracy and faster response (3 sec) are critical.
- Pro Model: Mandatory for extreme applications like aerospace alloy production, where 1400°C tolerance and ±0.5°C precision ensure safety and efficiency.

With the Pro Model’s Inconel® 600 alloy, you can safely measure temperatures in reactive molten baths while maintaining structural integrity. Pair its ultra-fast response time with the Silicon Nitride tube to minimize downtime during furnace startups.

Frequently asked questions

Which K Type Thermocouple is best suited for high-temperature molten-aluminum baths?
How do I maintain the protective sleeve of the K Type Thermocouple for industrial use?
SiC vs. Stainless Steel: Which material is better for thermocouples in corrosive environments?
Can the K Type Thermocouple be customized for specific temperature ranges?
Is the K Type Thermocouple RoHS-certified for industrial compliance?
What makes the Silicon Nitride tube better for molten-aluminum temperature measurement?
How does the integrated SiC heater enhance thermocouple performance?
Are these thermocouples suitable for long-term use in corrosive industrial settings?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Material Composition	High-temperature furnaces, chemical plants	- Industry Standard: Stainless Steel (304/316) - Our Base: High-grade Inconel (ASTM A276) - Our Advanced: SiC Heater + Silicon Nitride Tube (ISO 14784)	▲ Base: 50% higher corrosion resistance ▲ Advanced: Withstands 1800°C (molten aluminum baths)	Advanced: 30% higher cost due to specialized materials
Temperature Range	Foundries, aerospace manufacturing	- Industry Standard: Up to 1200°C - Our Base: 1400°C (IEC 60584) - Our Advanced: 1800°C (exceeds ASTM E230 limits)	▲ Advanced: Covers extreme molten metal applications ▲ Base: Compatible with most industrial ovens	Industry Standard: Inadequate for high-end processes
Protection Features	Corrosive environments, high-vibration zones	- Industry Standard: Basic ceramic sleeve - Our Base: Enhanced ceramic (Al₂O₃, 99.7% purity) - Our Advanced: Dual-layer SiC/Silicon Nitride (ISO 14784)	▲ Advanced: 40% better thermal shock resistance ▲ Base: 2x longer lifespan vs. standard	Advanced: Requires specialized installation tools
Certification Compliance	Global industrial markets	- Industry Standard: Basic CE - Our Base: RoHS + IECEx - Our Advanced: RoHS + ATEX + NSF (food-grade optional)	▲ Base: Access to EU/US markets ▲ Advanced: Complies with hazardous zone (ATEX Zone 1)	Advanced: Certification costs add 15% to price
Modularity	Customized industrial setups	- Industry Standard: Fixed sensor length - Our Base: Adjustable probe length (10-50cm) - Our Advanced: Full modular assembly (probe + connector + sleeve)	▲ Advanced: 50% faster deployment in complex systems ▲ Base: Reduces downtime via quick swaps	Industry Standard: Limited to standard configurations
Weight & Portability	Mobile equipment, field applications	- Industry Standard: 1.2kg (steel-heavy) - Our Base: 0.9kg (lightweight alloy) - Our Advanced: 0.6kg (SiC/Silicon Nitride)	▲ Advanced: 50% easier to handle in confined spaces ▲ Base: 30% lighter than standard	Advanced: Fragile compared to steel builds

K Type Temperature Sensor Integrated SiC Heater Thermocouple and Silicon Nitride Tube Thermocouple for Molten-Aluminum Bath

K Type Temperature Sensor Integrated SiC Heater Thermocouple and Silicon Nitride Tube Thermocouple for Molten-Aluminum Bath

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Corrosion-Resistant Material Technology

2. Integrated SiC Heater for Enhanced Performance

3. High-Temperature Scenario Adaptability

4. RoHS Compliance for Eco-Friendly Use

5. Modular Design for Custom Solutions

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which K Type Thermocouple is best suited for high-temperature molten-aluminum baths?

How do I maintain the protective sleeve of the K Type Thermocouple for industrial use?

SiC vs. Stainless Steel: Which material is better for thermocouples in corrosive environments?

Can the K Type Thermocouple be customized for specific temperature ranges?

Is the K Type Thermocouple RoHS-certified for industrial compliance?

What makes the Silicon Nitride tube better for molten-aluminum temperature measurement?

How does the integrated SiC heater enhance thermocouple performance?

Are these thermocouples suitable for long-term use in corrosive industrial settings?

Product comparison

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