Mineral-Insulated Thermocouple Sensor – TM2

Product description

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Application:

The TM2 Mineral-Insulated Thermocouple Sensor is designed for built-in temperature measurement in extreme environments. Its flexible and bendable mineral-insulated (MI) construction allows for seamless integration into industrial and processing systems, ensuring reliable operation even in high-temperature conditions. TM2 is ideal for permanent installations where direct wiring is required for accurate process monitoring and control.

Common use cases include:
Furnaces & kilns – Designed for continuous high-temperature monitoring in metal and ceramic processing.
Power plants & energy systems – Ensures accurate temperature measurement in turbines and combustion chambers.
Industrial processing lines – Used in steel, glass, and chemical industries where extreme heat is present.
OEM & machine integration – Built for direct installation into equipment for real-time temperature tracking.
Custom configurations – Available with various thermocouple types, process connections, and high-temperature materials to fit industry needs.

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TM2 mineral-insulated thermocouple sensor for built-in high-temperature measurement in industrial processing systems, furnaces, and power plants.
Properties:

Built-in temperature measurement – Designed for permanent installation in industrial and processing systems.
High-temperature resistance – Supports temperatures up to 1800°C, depending on thermocouple type.
Flexible mineral-insulated (MI) constructionBendable design allows for easy routing in confined spaces.
Direct wiring integration – Ideal for process control systems requiring permanent sensor installation.
Durable acid-proof stainless steel sheath – Provides protection in extreme heat, corrosive, and high-vibration environments.
Multiple thermocouple types availableK, J, E, N, T, R, S, and B thermocouples for various industrial applications.
Custom configurations available – Tailored to specific process requirements, including immersion length, connection type, and sheath materials.