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Shanghai Tankii Alloy Material Co.,Ltd
Shanghai Tankii Alloy Material Co.,Ltd
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ISO Certified K Type Thermocouple Extension Wire Chromel Alumel With Fiberglass Insulation

Product Details

Place of Origin: China

Brand Name: Tankii

Certification: ISO9001

Model Number: K, J, E, T, N, S, R, B

Payment & Shipping Terms

Minimum Order Quantity: 200~1000M

Price: USD0.2~2.5/m

Packaging Details: In roll, in carton case/wooden case

Delivery Time: 5~20 days as orders

Payment Terms: L/C, T/T

Supply Ability: 10000m per month

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Specifications
Highlight:

Chromel Alumel Thermocouple Extension Wire

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Fiberglass Insulation Thermocouple Extension Wire

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K Type Thermocouple Extension Wire

Item:
ISO Certified K Type Thermocouple Extension Wire Chromel Alumel With Fiberglass Insulation
MOQ:
200~1000M
Cable Diameter:
0.5mm,1.0mm 2.0mm, 2.5mm,
Insulation:
Fiberglass,PVC, FEP, Kapton, PFA
Cable Length:
100m, 200m, 300m,
Temperature Range:
-200℃ To +1000℃
Application:
Connecting Thermocouple Sensor
Cable Jacket:
Fiberglass,PVC, FEP,
Item:
ISO Certified K Type Thermocouple Extension Wire Chromel Alumel With Fiberglass Insulation
MOQ:
200~1000M
Cable Diameter:
0.5mm,1.0mm 2.0mm, 2.5mm,
Insulation:
Fiberglass,PVC, FEP, Kapton, PFA
Cable Length:
100m, 200m, 300m,
Temperature Range:
-200℃ To +1000℃
Application:
Connecting Thermocouple Sensor
Cable Jacket:
Fiberglass,PVC, FEP,
Description
ISO Certified K Type Thermocouple Extension Wire Chromel Alumel With Fiberglass Insulation

ISO Certified K Type Thermocouple Extension Wire Chromel Alumel With Fiberglass Insulation

Product Description:

What is the difference between K type and other types of thermocouple cables?

The K type thermocouple cable has several differences compared to other types of thermocouple cables:
 
  1. Material composition:
    • K type: The positive conductor of a K-type thermocouple cable is made of a nickel-chromium alloy, and the negative conductor is made of a nickel-aluminum alloy.
    • J type: The positive electrode is pure iron, and the negative electrode is a copper-nickel alloy (also known as constantan).
    • T type: The positive electrode is pure copper, and the negative electrode is a copper-nickel alloy.
    • S type: The positive electrode is a platinum-rhodium alloy (e.g., 10% rhodium and 90% platinum for the S type), and the negative electrode is pure platinum.
  2. Temperature range:
    • K type: It can be used in the temperature range of -200°C to 1300°C, which is relatively wide and suitable for many industrial temperature measurement scenarios
    • J type: The applicable temperature range is from -200°C to 800°C, but it is usually used below 500°C because the oxidation rate of the iron hot electrode accelerates at higher temperatures.
    • T type: The usable temperature is -200°C to 350°C, and it has the best stability in the -200°C to 0°C temperature range.
    • S type: The long-term use temperature is 1300°C, and the short-term use temperature can reach 1600°C. It is suitable for high-temperature environments with high accuracy requirements.
  3. Sensitivity and accuracy:
    • K type: It has relatively high sensitivity and good linearity in a certain temperature range, but its accuracy is not as high as that of some precious metal thermocouples.
    • E type: It has high sensitivity and is suitable for measuring small temperature changes, but its thermoelectric potential uniformity is relatively poor.
    • T type: It has high accuracy in the low-temperature range, but its sensitivity and accuracy decline at high temperatures.
    • S type: It has the highest accuracy level among all thermocouples and is often used as a standard thermocouple in high-precision temperature measurement.
  4. Cost:
    • K type: As a cheap metal thermocouple, it is cost-effective and widely used in various industrial fields.
    • S type, R type, B type and other precious metal thermocouples: These have high accuracy, good stability, and high-temperature resistance, but their prices are relatively expensive.
  5. Resistance to environmental factors:
    • K type: It has strong oxidation resistance and can be used in oxidizing and inert atmospheres. However, it cannot be used directly in high-temperature environments with sulfur, reducing or alternating reducing-oxidizing atmospheres, or in a vacuum.
    • J type: It can be used in vacuum, oxidation, reduction, and inert atmospheres, but the positive iron electrode oxidizes relatively quickly at high temperatures, so its use is limited in some high-temperature environments.
    • T type: It has poor oxidation resistance at high temperatures, so the upper limit of its use temperature is restricted.

Technical Parameters:

Technical Parameter Value
Product Name Thermocouple Extension Wire
Cable Type K Type TC Cable
Connector Type Miniature, Micro, Etc.
Insulation PVC, Silicone, Etc.
Cable Length 100m, 200m, 300m
Voltage Rating 220V
Cable Color Black, White, Etc.
Connector Material K, J, T, E, N, Etc.
Temperature Range -200℃ To +1000℃
ISO Certified  K Type Thermocouple Extension Wire Chromel Alumel With Fiberglass Insulation 0ISO Certified  K Type Thermocouple Extension Wire Chromel Alumel With Fiberglass Insulation 1ISO Certified  K Type Thermocouple Extension Wire Chromel Alumel With Fiberglass Insulation 2

Applications:

Thermocouple cable has a wide range of applications, including:
 
  1. Industrial manufacturing:
    • Metallurgy: In steelmaking, ironmaking, and other metallurgical processes, thermocouple cables are used to monitor the high temperatures in furnaces, such as blast furnaces, electric furnaces, and converters. This helps to control the smelting process and ensure the quality of the metal products.
    • Chemical industry: Chemical reactions often occur under specific temperature conditions. Thermocouple cables are used to measure the temperature in reactors, distillation columns, and other equipment to ensure the normal progress of chemical reactions and the safety of the production process.
    • Ceramics and glass manufacturing: The production of ceramics and glass requires high-temperature firing and melting processes. Thermocouple cables are used to monitor the temperature in kilns and furnaces to control the firing temperature and ensure the quality of the products.
    • Power generation: In power plants, thermocouple cables are used to measure the temperature of boilers, steam turbines, and other equipment to monitor the operating status of the equipment and ensure the safe and efficient operation of the power generation system.
  2. Automotive industry: Thermocouple cables are used in the automotive industry to measure the temperature of engine exhaust gases, catalytic converters, and other components. This helps to monitor the performance of the engine and the emission control system, and is also used in the testing and development of new automotive engines.
  3. Aerospace industry: In the aerospace field, thermocouple cables are used to measure the temperature of aircraft engines, rocket engines, and other high-temperature components. This is crucial for ensuring the safety and reliability of aerospace vehicles during flight.
  4. Food industry: In the food processing industry, thermocouple cables are used to measure the temperature of ovens, sterilization equipment, and other processing equipment to ensure the safety and quality of food processing.
  5. Laboratory and scientific research: Thermocouple cables are widely used in laboratories and scientific research institutions for temperature measurement in various experiments and research projects. For example, in material research, chemical experiments, and biological research, thermocouple cables are used to measure the temperature of samples and reaction systems.
  6. HVAC systems: In heating, ventilation, and air conditioning systems, thermocouple cables are used to measure the temperature of air, water, and other media to control the operation of the system and ensure the comfort of the indoor environment.
 

Customization:

Our thermocouple cables are manufactured in China, ensuring excellent quality and durability. With a temperature range of -200℃ to +1000℃, our thermocouple wire is perfect for a variety of industrial and commercial settings.

In addition to the standard cable diameters of 0.5mm, 1.0mm, 2.0mm, and 2.5mm, our thermocouple cables are also available in various insulation materials such as PVC, silicone, and more. We can manufacture cables with 2, 3, 4, or more cores, depending on your specific requirements.

To ensure easy installation and use, our thermocouple cables come with connector shells of different sizes, including 6.35mm, 4.2mm, and more. With our product customization services, you can choose the most suitable connector shell size for your application.

Trust Tankii for all your thermocouple cable needs, including thermocouple type K and other types. Contact us today to discuss your specific requirements and request a quote.

 

FAQ:

Q: What is the brand name of this Thermocouple Cable?

A: The brand name of this Thermocouple Cable is Tankii.

Q: What are the different model numbers available for this Thermocouple Cable?

A: The different model numbers available for this Thermocouple Cable are KX/KC, JX, EX, TX, NX, SC

Q: Where is this Thermocouple Cable manufactured?

A: This Thermocouple Cable is manufactured in China.

Q: What are the temperature ranges supported by this Thermocouple Cable?

A: The temperature ranges supported by this Thermocouple Cable vary depending on the model number. Please refer to the product specifications for more information.

Q: Is this Thermocouple Cable suitable for use in harsh industrial environments?

A: Yes, this Thermocouple Cable is designed to be durable and reliable in harsh industrial environments.

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