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Standard Sheath Type(Sheath, Protecting Tube Material:Stainless + Fluorine)
Standard Sheath thermocouples or temperature probes are a type of temperature sensor encased in a metal sheath and equipped with thermocouple wires. They offer a wide range of options, including thermocouple types like K and J. Additionally, there are other temperature sensors available, such as RTDs and thermistors. When selecting a temperature probe, factors like probe diameter, operating environment, and material should be considered. Trusted brands like MISUMI, JUST, RS Pro, and NIHONDENSOKU are recommended. Enjoy the convenience of FREE SHIPPING and NO MINIMUM ORDER on temperature probes and related products. If you have any doubts or need assistance in selecting the right product, our experts are ready to provide advice and guidance.
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Temperature Sensors - Chemical Resistant, K-Thermocouple
MISUMI
Temperature Sensors - Chemical Resistant, K-Thermocouple
These Temperature Sensors which chemical resistant properties are commonly used in manufacturing and automation machine
[Feature]
● Temperature Sensors : Thermocouple Type K
● Sheath Outside Diameter (mm.) : 5.3
● Protection Tube Length (mm.): 200 and 400
● Temperature Range (°C) : 0 to 180
● Crimp Terminal Type: M4 Y-Shaped 2 sets
● Material :
Sleeve - SUS304
Sheath - SUS316 + Fluororesin (FEP) Tube
[Application]
It is used in a variety of application such as heat treatment, packaging industry , plastic industry , and so on.- Volume Discount
- CAD :
- 2D
Type Thermocouple Type Probe Dia. d(Ø) Sheath, Protecting Tube Shape Lead Wire Protection, L Selection(mm) Operating Environment Sheath, Protecting Tube Material Thermocouple Structure Number of Elements Attaching Portion Shape Thermocouple K 5.3 - 200 ~ 400 Chemical Resistant Stainless + Fluorine Isolated Neutral Type 1 Sleeve From: ₹ 9,545.20 Days to Ship: 6 Day(s) or more 
6 Day(s) or more
| Brand |
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| Product Series |
| CAD |
| From |
| Days to Ship |
| Type |
| Thermocouple Type |
| Probe Dia. d(Ø) |
| Sheath, Protecting Tube Shape |
| Lead Wire Protection, L Selection(mm) |
| Operating Environment |
| Sheath, Protecting Tube Material |
| Thermocouple Structure |
| Number of Elements |
| Attaching Portion Shape |
You can add up to 6 items per a category to the compare list.  | |
| Brand | MISUMI |
| Product Series | |
| CAD |
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| From | ₹ 9,545.20 |
| Days to Ship | 6 Day(s) or more |
| Type | Thermocouple |
| Thermocouple Type | K |
| Probe Dia. d(Ø) | 5.3 |
| Sheath, Protecting Tube Shape | - |
| Lead Wire Protection, L Selection(mm) | 200 ~ 400 |
| Operating Environment | Chemical Resistant |
| Sheath, Protecting Tube Material | Stainless + Fluorine |
| Thermocouple Structure | Isolated Neutral Type |
| Number of Elements | 1 |
| Attaching Portion Shape | Sleeve |
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Specification/Dimensions
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Type
- Thermocouple
- Temperature Measuring Resistor
- Thermistor
- Related Components
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Thermocouple Type
- K
- J
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Probe Dia. d(Ø)
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Sheath, Protecting Tube Shape
- Not Provided (Sheathed Thermocouple only)
- Straight
- Type L
- Sheet
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Lead Wire Protection, L Selection(mm)
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Operating Environment
- Standard
- Heat Resistant
- Chemical Resistant
- Waterproof
- Corrosion Resistant
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Sheath, Protecting Tube Material
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Thermocouple Structure
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Number of Elements
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Attaching Portion Shape
Related Categories to Standard Sheath Type
FAQ Temperature Sensors
- Question: What are the different types of Temperature Sensors?
- Answer: Temperature sensors have many types. Here are some examples
1. Thermocouples: It is a temperature measuring device that operates on the principle of converting temperature or heat into an electromotive force. They are composed of two dissimilar metal conductors connected at one end to each other.
2. Resistance Temperature Detectors (RTDs): They use the change in electrical resistance of a metal wire or element with temperature.
3. Thermistors: They are temperature-sensitive resistors that change resistance significantly with temperature.
4. Infrared (IR) sensors: They detect and interpret the thermal radiation emitted by an object to measure temperature. - Question: What are the applications of Temperature Sensors?
- Answer: There are several examples of temperature sensor applications in various fields.
1. HVAC systems: Temperature sensors are used to monitor and control the temperature in buildings
2. Industrial processes: Temperature sensors play a vital role in industrial processes such as manufacturing, refining, and chemical processing.
3. Automotive Industrial: Temperature sensors are used in automobiles to monitor engine temperature, coolant temperature, and exhaust gas temperature. This information ensures proper functioning and prevents overheating.
4. Food and beverage industry: Temperature sensors are essential for maintaining proper food safety and quality during processing, storage, and transportation.
5. Energy management: Temperature sensors are employed in energy management systems to monitor temperature variations in buildings. They assist in optimizing heating and cooling, reducing energy consumption, and improving overall energy efficiency. - Question: How accurate are Temperature Sensors?
- Answer: Temperature sensors can provide accurate measurements within a specific tolerance range, typically ranging from ±0.1°C to ±1°C. The accuracy may be influenced by factors such as sensor calibration, environmental conditions, and the specific application. Specialized temperature sensors used in scientific or industrial settings can offer even higher levels of accuracy.
- Question: What factors should I consider when selecting a Temperature Sensor?
- Answer: When selecting a temperature sensor, consider the following factors:
1. Temperature range: Ensure the sensor can measure temperatures within your desired range.
2. Accuracy: Choose a sensor with the required level of accuracy for your application.
3. Response time: Consider how quickly the sensor can detect and provide temperature readings.
4. Environmental conditions: Evaluate if the sensor can handle the environmental factors present in your application.
5. Calibration: Determine if the sensor requires periodic calibration to maintain accuracy.
6. Sensor type: Understand the different sensor types available and choose one that suits your needs.
7. Cost: Consider the sensor's price and its fit within your budget.
8. Interface and compatibility: Check if the sensor is compatible with your measurement system or equipment.
Considering these factors will help you select a suitable temperature sensor for your engineering application. - Question: What are the advantages of using a standard sheath thermocouple?
- Answer: - Protects the thermocouple wires from harsh environments, including corrosion, abrasion, and pressure.
- Provides mechanical strength and allows for probe-like insertion into various mediums.
- Can be made in various diameters and lengths for specific needs.
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