Solid Copper Conductor Single Core Mineral Insulated Metal Sheathed Cable with 0.5-12.7mm Outside Dia for High Temperature Applications
Basic Properties
Place of Origin:
NINGBO CHINA
Brand Name:
LEADKIN
Certification:
ISO9001, IATF16949, CE
Model Number:
LK-K
Trading Properties
Minimum Order Quantity:
50M
Price:
negotiation
Payment Terms:
L/C,D/A,D/P,T/T,Western Union,MoneyGram
Supply Ability:
1,000,000M/year
Specifications
| Core: | 2,3,4,6 | Insulation: | MgO |
| Warranty: | 1 Year | Temperature Range: | 200℃-1000℃ |
| Accuracy: | Class I、II、III | Outside Dia: | 0.5-12.7mm |
| Package: | Carton. Pallet | Function: | Temperature Test |
| Cable Length: | 1-5m Or Customized | Thermocouple Type: | K/N/E/J/T/S/R/B |
| High Light: | Solid Copper Conductor MIMS Cable,Single Core Design Thermocouple Mineral Insulated Cable,0.5-12.7mm Outside Dia Mineral Insulated Metal Sheathed Cable |
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Product Description
Mineral Insulated Metal Sheathed Cable with Solid Copper Conductor
Single core design engineered for high temperature environments with superior performance and reliability.
Product Specifications
- Type: K/N/E/J/T/S/R/B
- Place of Origin: Zhejiang, China
- Accuracy: I-0.4%t, II-0.75%t, III-1.5%t
- Core number: 2, 3, 4, 6
- Inorganic mineral insulating lead material: Ni, Cu
- Insulator: 99.6% high purity MgO
- Certificate: ISO9001, IATF16949, CE
- Application: Connecting with thermocouple and instrument machine
- Sheath material: 0Cr18Ni10Ti, SS304S, SS316L, SS316, Cu
- Sheath Dia(mm): φ3.0, φ4.0, φ6.0, φ8.0
Sheath Wire Type Specifications
| Product Name | Code | Type | Sheath Material | Outside Dia. | Temperature |
|---|---|---|---|---|---|
| NiCr-NiSi /NiCr-NiAl | KK | K | SS304 SS316 | 0.5-1.0 | 400 |
| SS304 SS316 | 1.5-3.2 | 600 | |||
| SS304 SS316 | 4.0-8.0 | 800 | |||
| SS310 Inconel600 | 0.5-1.0 | 500 | |||
| SS310 Inconel600 | 1.5-3.2 | 800 | |||
| SS310 Inconel600 | 4.0-6.4 | 900 | |||
| SS310 Inconel600 | 8.0-12.7 | 1000 | |||
| NiCrSi-NiSi | NK | N | SS304 SS316 | 0.5-1.0 | 400 |
| SS304 SS316 | 1.5-3.2 | 600 | |||
| SS304 SS316 | 4.0-8.0 | 800 | |||
| SS310 Inconel600 | 0.5-1.0 | 500 | |||
| SS310 Inconel600 | 1.5-3.2 | 800 | |||
| SS310 Inconel600 | 4.0-6.4 | 900 | |||
| SS310 Inconel600 | 8.0-12.7 | 1000 | |||
| NiCr-Konstantan | EK | E | SS304 SS316 | 0.5-1.0 | 400 |
| SS304 SS316 | 1.5-3.2 | 600 | |||
| SS304 SS316 | 4.0-8.0 | 800 | |||
| Fe-Konstantan | JK | J | SS304 SS316 | 0.5-1.0 | 400 |
| SS304 SS316 | 1.5-3.2 | 600 | |||
| SS304 SS316 | 4.0-8.0 | 800 | |||
| Cu-Konstantan | TK | T | SS304 SS316 | 0.5-1.0 | 400 |
| SS304 SS316 | 1.5-3.2 | 600 | |||
| SS304 SS316 | 4.0-8.0 | 800 | |||
| RhPt10-Ph | SK | S | Inconel600 | 6.0-12.7 | 1100 |
Note: Different temperature measuring media and service conditions may impact the service life and temperature range of armored thermocouples. The data in the table is for reference only.
Accuracy Specifications
| Type | Class I | Class II |
|---|---|---|
| K | ±1.5℃ (-40~375℃) ±0.4% (375℃-1000℃) | ±2.5℃ (-40~375℃) ±0.75% (375℃-1000℃) |
| N | ±1.5℃ (-40~375℃) ±0.4% (375℃-1000℃) | ±2.5℃ (-40~375℃) ±0.75% (375℃-1000℃) |
| E | ±1.5℃ (-40~375℃) ±0.4% (375℃-800℃) | ±2.5℃ (-40~375℃) ±0.75% (375℃-800℃) |
| J | ±1.5℃ (-40~375℃) ±0.4% (375℃-800℃) | ±2.5℃ (-40~375℃) ±0.75% (375℃-800℃) |
| T | ±0.5℃ (-40~125℃) ±0.4% (125℃-350℃) | ±1.0℃ (-40~125℃) ±0.75% (125℃-350℃) |
| S | ±1.0℃ (0-1100℃) | ±1.5℃ (0-1100℃) |
Product Overview
A thermocouple temperature probe utilizes the thermoelectric effect to measure temperature accurately. It consists of two different metal wires joined at one end, generating a voltage that corresponds to temperature differences.
Construction Details
- Wires: Made of two different conductive metals (commonly copper, nickel, chromel, alumel)
- Junction: Measuring junction where wires join, connected to measuring device
- Insulation: High-temperature resistant materials (ceramic, fiberglass)
- Sheath: Protective metal or ceramic casing
Working Principle
- Seebeck Effect: Temperature gradient generates thermoelectric voltage
- Measurement: Voltage converted to temperature using calibration data
- Protection: Metal sheath and mineral insulation protect from EMI/RFI and corrosion
Industrial Applications
- Solid waste incinerators
- Sintering powdered metals
- Firing ceramic materials
- Gas or oil fired furnaces
- Fuel fired heat exchangers
- Box furnaces
- Nuclear or hydrocarbon based energy plants
Product Images
Company Information
Packaging & Quality Assurance
We use heat shrink tubing and plastic film to ensure high insulated resistance. Each coil cable includes marking notes, pass card and test report.
Production Standards
Our high-quality professional products are manufactured using advanced production lines and equipment, complying with international quality standards.
Order Process
- Request accurate quotation
- Confirm price, trade terms, lead time, and payment terms
- Receive Proforma Invoice with company seal
- Arrange deposit payment
- Receive production line photos showing your products
- Receive mass production photos
- Make balance payment and receive shipping details
- Confirm satisfactory receipt of goods
- Provide feedback on quality and service
Frequently Asked Questions
What are the advantages of using thermocouples?
Wide temperature range, fast response time, simple and rugged design, relatively inexpensive, suitable for extreme conditions.
Wide temperature range, fast response time, simple and rugged design, relatively inexpensive, suitable for extreme conditions.
What are the disadvantages of thermocouples?
Non-linear output requiring calibration, potentially lower accuracy than other sensors, requires reference junction compensation, susceptible to electromagnetic interference.
Non-linear output requiring calibration, potentially lower accuracy than other sensors, requires reference junction compensation, susceptible to electromagnetic interference.
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