Type T 12.7mm Triplex Inconel Sheath Mineral Insulated Thermocouple Cable

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Description

Product Description

Mineral insulated thermocouple cables have an outer sheath of metal with 2 to 8 conductors of thermocouple base material.. The insulation material is made from a highly compressed metal oxid powder(MgO).

Mineral insulated cables are designed for high-temperature applications and are used wherever there are particularly strict requirements with regard to mechanical, chemical and electrical stability.

Sheath Diameter available	From 0.25mm to 12.7mm
Calibration Available	J, K, T , E , N
Sheath Material	304 Stainless Steel 316 Stainless Steel 310 Stainless Steel Inconel 600 Incoloy800
Wire Number	Simplex, Duplex, Triplex

Sheath Material	Continuous Max. Temperature	Melting Temperature	Application Notes
304	900°C	1400°C	Good resistance to corrosion and oxidation
316	925°C	1370°C	Good corrosion resistance and creep strength at elevated temperatures (Mo). Resists tendency to pit in phosphoric and aetic acids. Withstands sulphuric acid compounds.
310S	1100°C	1400°C	High temperature strength and scale resistance. Good resistance to carburising and reducing envirnoments. Withstands sulphurous gas at elevated temperatures (high Ni-Cr)
INC600	1150°C	1400°C	High corrision resistance at elevated temperatures. High hot strength. Used in sulphur-free environments. Resists oxidising and reducing atmospheres.

Feature:

1. Stainless Steel Sheath 304, 310, 316, 321SS
2. Inconel 600 Sheathing
3. J, K, N, T, E Wire Calibration Available
4. M.I. Cable with MgO
5. High Purity and Standard MgO
6. Inch and Metric Diameters
7. .010” upto 0.50” Diameter
8. Special Limits SLE or Standard Grade
9. Can Be Welded, Bent or Formed
10. Withstands High Temperatures and Pressures

Application:

The use of mineral insulated thermocouple cables is preferred in areas where mounting is difficult and where a high degree of flexibility is required.

The minimum bending radius is 3 times the outer diameter of the mineral insulated cable. Innovations in technology and manufacturing have

made it possible for these cables to be used increasingly frequently as a material in the manufacture of standardized thermocouples and RTDs,

in particular in industrial measuring and control technology and in automotive sensor technology.