- PT100 thermal resistance China supplier source manufacturer Intelligent instrument is located in Nanjing, China, with a professional R & D team, deeply engaged in the instrument industry.
- Products have integrated electromagnetic flowmeter, vortex flowmeter, split electromagnetic flowmeter and other products, can be customized according to customer choice and software page design.
Nuke Explosion-proof Armored Platinum Thermal Resistance PT100 Temperature Sensor
Nuke Explosion-proof armored RTDs offer high durability, precise temperature measurement, resistance to harsh environments, and enhanced safety in hazardous areas.
- Explosion-proof design: Ensures safety in hazardous environments, preventing sparks or explosions.
- Durability: Armored construction protects against mechanical damage and harsh conditions.
- High accuracy: Provides precise and reliable temperature measurements in extreme conditions.
- Wide temperature range: Suitable for a variety of industrial applications, including extreme temperature environments.
- Corrosion resistance: Built to withstand aggressive chemicals and environmental factors.
Explosion-Proof Armored RTD for Harsh Environments and Safety
Nuke explosion-proof armored RTD is designed for accurate and stable temperature measurement in hazardous environments. Its robust, armored construction ensures durability and protection against mechanical damage, ideal for industries like oil and gas, chemical processing, and power generation. This sensor meets the need for safety and precision in explosive-prone areas, providing reliable data essential for process control. Target customers include industrial operators and engineers focused on maintaining safety and operational efficiency in challenging environments.
Nuke Explosion-proof Armored Platinum Thermal Resistance PT100 Temperature Sensor Data Sheet
| Resistance thermometer | |
| Mechanical features | |
| Design types | Straight or tapered protection tube Extension tube with straight or tapered protection tube |
| Materials | Aluminum die-cast Stainless steel |
| Terminal head | |
| Protection tube | |
| Protection tube | Ø6 mm(standard) Ø8 mm |
| Response times In water 0.4 m/s In air 3.0 m/s | to.5≈8 S, to.9≈ 20 s, Ø8 mm to.5≈5 S, to.9≈ 12 s, Ø6 mm to.5≈2 S, to.9 ≈ 5 s, Ø 6 mm reduced toØ3.5 mm to.5≈1 S, to.9≈2 S, Ø6 mm reduced to Ø 2.6 mm to.5≈40 S, to.9≈ 110 S,Ø6 mm to.5≈ 25 S, to.9≈ 85 S, Ø 6 mm reduced to Ø3.5mm to.5=18 S,to.9≈ 65 S, Ø 6 mm reduced to Ø2.6 mm |
| Measuring insert | DIN EN IEC 60751 1x Pt100 in 2-wire circuit 1x Pt100 in 3-wire circuit 1x Pt1000 in 2-wire circuit 2x Pt100 in 2-wire circuit |
| Tolerance class | Class B(standard) Class A Class AA |
| Insertion length | 50 to 1000 mm |
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Explosion-proof Armored Thermistors Applications
- Oil & Gas Exploration and Refining
In oil and gas operations, explosion-proof armored RTDs are essential for precise temperature monitoring within hazardous zones, such as offshore platforms, refineries, and drilling rigs. Their armored construction withstands harsh marine and industrial environments, enhancing safety and process control under high-pressure and high-temperature conditions. - Chemical Processing Plants
Chemical industries use explosion-proof RTDs to accurately monitor temperatures in environments exposed to reactive substances and corrosive chemicals. These sensors are built to resist chemical corrosion, providing reliable data essential for maintaining the integrity and safety of complex chemical processes. - Pharmaceutical Manufacturing
Pharmaceutical facilities rely on explosion-proof RTDs for temperature-sensitive production stages requiring sterile and controlled environments. In volatile atmospheres, such as solvent-based processes, these RTDs ensure both compliance and precision, supporting product quality and adherence to stringent regulatory standards. - Power Generation
Within power plants, explosion-proof armored RTDs monitor high temperatures in boilers, turbines, and reactors. They provide continuous, stable readings under mechanical stress and heat, enabling efficient power generation while minimizing the risk of equipment failure or hazardous incidents.
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