- Used thermocouples can be re-processed
|R||PtRh13%、Pt||Normal limit: 1,400°C, Overheating limit: 1,600°C|
|S||PtRh10%, Pt||Normal limit: 1,400°C, Overheating limit: 1,600°C|
|B||PtRh30%, PtRh6%||Normal limit: 1,500°C, Overheating limit: 1,700°C|
*Available with a desired wire diameter
Temperature control sensors used in steel, glass, electrical, semiconductor, and chemical industries
As the negative electrode of pure platinum used in type R thermocouples has the disadvantage of easily fracturing at high temperatures, zirconium oxide was dispersed in platinum for the first time in the world, which creep strength of negative electrode at high temperature by ten-time of conventional ones.
Initial stress at 1,400°C and creep fracture
When compared with high purity platinum or the conventional oxide-dispersion-strengthened material (GTH), TEMPLAT has fracture stress up to ten times better than pure platinum even with the same fracture time.
Comparison of sectional structure also reveals that TEMPLAT metal structure does not exhibit changes even after creep testing and has no bamboo structures, which are the main cause of wire breakage.
* Bamboo Structure
When crystal grains coarsen in thin wire and the grain boundary comes to cross the entire wire diameter, this state is called a “bamboo structure” because the grain boundary appears just like a bamboo joint.
This exhibits the same thermoelectromotive characteristics as the negative electrode of pure platinum currently in use, and can therefore be replaced conventional lines.
* The standard wire diameter is φ0.5, with class 2 precision.
For <φ0.5, the maximum length is 3m.
If you would like a different wire diameter or class 1 materials, please inquire separately.