Product Details
Place of Origin: China
Brand Name: Tankii
Certification: ISO9001
Model Number: K
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: |
IEC 584-1 Standard Chromel Alumel Thermocouple Bare Wire 0.5mm On DIN160 Spool For Metallurgy |
Material: |
KP-KN: Chromel- Alumel |
Surface: |
Bright Or Oxidized As Per Request |
Diameter: |
0.05mm-12mm Can Be Produced |
Class: |
1 |
MOQ: |
5~10kg As Per Diameter |
Item: |
IEC 584-1 Standard Chromel Alumel Thermocouple Bare Wire 0.5mm On DIN160 Spool For Metallurgy |
Material: |
KP-KN: Chromel- Alumel |
Surface: |
Bright Or Oxidized As Per Request |
Diameter: |
0.05mm-12mm Can Be Produced |
Class: |
1 |
MOQ: |
5~10kg As Per Diameter |
The two wires that make up the thermocouple pair are made from a range of different alloys and metals and have been standardised by both international and national bodies.
Thermocouple wire type K is a type of thermocouple wire commonly used in temperature measurement applications. It is made up of a combination of two different metals, chromel and alumel, which generate a voltage when exposed to a temperature difference.
Type K thermocouples are known for their wide temperature range (-200°C to 1350°C) and high accuracy, making them suitable for use in a variety of industries such as manufacturing, automotive, and aerospace.
What differentiates one thermocouple from another is the metals in its two wires: the positive leg and the negative leg. Because each thermocouple type has a different pairing, they differ in temperature limits, process conditions (inert, oxidizing, reducing atmospheres, heavy vibration), and so on.
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 |