Product Details
Place of Origin: China
Brand Name: Tankii
Certification: ISO9001
Model Number: K/J/E/T/N
Payment & Shipping Terms
Minimum Order Quantity: 5~10kg as per diameter
Price: USD26~60/kg
Packaging Details: ON spool and carton package. As the order quantity and customer requirement.
Delivery Time: 5-7 days
Payment Terms: T/T, Paypal, Western Union, MoneyGram,
Supply Ability: 2000 Ton per year
Item: |
Thermocouple Wire N 0.2mm 0.16mm 1.29mm 3.2mm Used For Nuclear Applications Temperature Measurements |
Material: |
K , J, T, N, E, |
Surface: |
Bright Or Oxidized As Per Request |
Diameter: |
0.05mm-12mm Can Be Produced |
Class: |
1 |
MOQ: |
5~10kg As Per Diameter |
Item: |
Thermocouple Wire N 0.2mm 0.16mm 1.29mm 3.2mm Used For Nuclear Applications Temperature Measurements |
Material: |
K , J, T, N, E, |
Surface: |
Bright Or Oxidized As Per Request |
Diameter: |
0.05mm-12mm Can Be Produced |
Class: |
1 |
MOQ: |
5~10kg As Per Diameter |
N-type thermocouple wire is a type of thermocouple that consists of a pair of dissimilar metals, Nicrosil (Nickel-Chromium-Silicon) and Nisil (Nickel-Silicon). This combination is known for its high stability at high temperatures and good resistance to oxidation, making it suitable for a range of industrial applications. Here are some key characteristics of N-type thermocouples:
Temperature Range: N-type thermocouples can measure temperatures within a range of approximately -200°C to 1300°C (-328°F to 2372°F). They are particularly well-suited for high-temperature applications.
Accuracy: N-type thermocouples offer good accuracy and stability, especially at high temperatures. They are commonly used in industries where precise temperature measurements are crucial.
Applications: N-type thermocouples find applications in industries such as aerospace, automotive, metal processing, and power generation, where high-temperature monitoring is essential.
Corrosion Resistance: The Nicrosil/Nisil combination provides good resistance to oxidation and corrosion, enhancing the longevity and reliability of N-type thermocouples in challenging environments.
Response Time: N-type thermocouples have a relatively fast response time, allowing for quick and accurate temperature measurements in dynamic systems.
Versatility: Due to their wide temperature range and stability, N-type thermocouples are versatile and can be used in diverse industrial settings where high temperatures are present.
Industry Standards: N-type thermocouples comply with international standards such as the IEC 60584 and ASTM E230, ensuring consistency and compatibility with thermocouple instrumentation.
Overall, N-type thermocouple wire is a reliable and accurate choice for high-temperature applications where stability, accuracy, and resistance to oxidation are essential requirements.
What is the most important factor for thermocouple wire ?
The most important factor to consider when selecting thermocouple wire is accuracy. Accuracy is crucial because thermocouples are primarily used for temperature measurement and control in various applications across different industries.
Here are some reasons why accuracy is the most critical factor for thermocouple wire selection:
Precision in Temperature Measurement: Thermocouples are relied upon to provide accurate temperature readings. The accuracy of the thermocouple wire directly impacts the precision of temperature measurements in the system.
Process Control: In industrial settings, accurate temperature measurements are essential for process control and ensuring product quality. Any inaccuracies in temperature readings can lead to inefficient processes or defective products.
Safety: In applications where temperature plays a critical role in safety, such as in chemical processing or HVAC systems, accurate temperature measurements are vital to prevent accidents or equipment failures.
Reliability: Accurate thermocouple wires provide reliable temperature data, leading to consistent performance and operation of systems that rely on temperature control.
Calibration: Accurate thermocouples are easier to calibrate and maintain, ensuring that they continue to provide precise temperature readings over time.
While other factors such as temperature range, chemical compatibility, durability, and cost are also important considerations when choosing thermocouple wire, accuracy takes precedence as it directly impacts the quality and reliability of temperature measurements in various applications.
Conductor Name |
Thermocouple Type |
Grade |
Temperature range ℃ |
Allowable Tolerance /℃ |
PtRh30-PtRh6 | B | Ⅱ | 600~1700 | ±0.25% t |
Ⅲ | 600~800 | ±4 | ||
800~1700 | ±0.5%t | |||
PtRh13-Pt | R | Ⅰ | 0~1100 | ±1 |
1100~1600 | ±[1+(t-1100) ×0.3%] | |||
Ⅱ | 0~600 | ±1.5 | ||
600~1600 | ±0.25% t | |||
PtRh10-Pt | S |
Ⅰ |
0~1100 | ±1 |
1100~1600 | ±[1+(t-1100) ×0.3%] | |||
Ⅱ |
0~600 | ±1.5 | ||
600~1600 | ±0.25% t | |||
NiCr-Ni | K | Ⅰ | -40~1100 | ±1.5℃ or ±0.4%t |
Ⅱ | -40~1300 | ±2.5℃ or ±0.75%t | ||
Ⅲ | -200~40 | ±2.5℃ or ±1.5%t | ||
NiCrSi-NiSi | N | Ⅰ | -40~1100 | ±1.5℃ or ±0.4%t |
Ⅱ | -40~1300 | ±2.5℃ or ±0.75%t | ||
Ⅲ | -200~40 | ±2.5℃ or ±1.5%t | ||
NiCr-CuNi (Constantan) | E | Ⅰ | -40~1100 | ±1.5℃ or ±0.4%t |
Ⅱ | -40~1300 | ±2.5℃ or ±0.75%t | ||
Ⅲ | -200~40 | ±2.5℃ or ±1.5%t | ||
Fe-CuNi (Constantan) | J | Ⅰ | -40~750 | ±1.5℃ or ±0.4%t |
Ⅱ | -40~750 | ±2.5℃ or ±0.75%t | ||
Cu-CuNi (Constantan) | T | Ⅰ | -40~350 | ±0.5℃ or ±0.4%t |
Ⅱ | -40~350 | ±1.0℃ or ±0.75%t | ||
Ⅲ | -200~40 | ±1.0℃ or ±1.5%t |