In a thermocouple, a pair of thermoelements extend within a protective sheath. The thermoelements are spaced from the sheath by an insulator. The sheath comprises an outer sheath formed from a metal alloy adapted to provide mechanical support and corrosion resistance during use of the thermocouple,
In a thermocouple, a pair of thermoelements extend within a protective sheath. The thermoelements are spaced from the sheath by an insulator. The sheath comprises an outer sheath formed from a metal alloy adapted to provide mechanical support and corrosion resistance during use of the thermocouple, typically at elevated temperature. The sheath further comprises an inner sheath positioned between the outer sheath and the thermoelements and formed from a nickel-based alloy containing less than 10 wt % Cr, to prevent diffusion of Cr and/or Mn from the outer sheath to the thermoelements.
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1. A thermocouple, comprising: a cable portion of the thermocouple; anda tip portion of the thermocouple,wherein the cable portion of the thermocouple comprises: a metal alloy outer sheath;a first thermoelement,wherein the first thermoelement extends within the metal alloy outer sheath;a second ther
1. A thermocouple, comprising: a cable portion of the thermocouple; anda tip portion of the thermocouple,wherein the cable portion of the thermocouple comprises: a metal alloy outer sheath;a first thermoelement,wherein the first thermoelement extends within the metal alloy outer sheath;a second thermoelement,wherein the second thermoelement extends within the metal alloy outer sheath; anda nickel-based inner sheath containing less than 10 wt % chromium,wherein the nickel-based inner sheath contains greater than 90 wt % nickel, andwherein the nickel-based inner sheath is positioned between the first thermoelement and the metal alloy outer sheath, andwherein the first thermoelement and the second thermoelement are joined together in electrical contact at the tip portion of the thermocouple. 2. The thermocouple according to claim 1, wherein the nickel-based inner sheath contains greater than 99 wt % nickel. 3. The thermocouple according to claim 1, wherein the nickel-based inner sheath is formed from Nickel 270. 4. The thermocouple according to claim 1, wherein the nickel-based inner sheath contains less than 5 wt % chromium. 5. The thermocouple according to claim 1, wherein the nickel-based inner sheath contains less than 0.1 wt % chromium. 6. The thermocouple according to claim 1, wherein the nickel-based inner sheath contains less than 0.2 wt % manganese. 7. The thermocouple according to claim 1, wherein the nickel-based inner sheath contains less than 0.01 wt % manganese. 8. The thermocouple according to claim 1, wherein the metal alloy outer sheath and the nickel-based inner sheath are in the form of coaxial tubes. 9. The thermocouple according to claim 1, wherein the metal alloy outer sheath is in contact with the nickel-based inner sheath. 10. The thermocouple according to claim 1, wherein the cable portion of the thermocouple further comprises: a second nickel-based inner sheath containing less than 10 wt % chromium,wherein the second nickel-based inner sheath is positioned between the second thermoelement and the metal alloy outer sheath. 11. The thermocouple according to claim 1, wherein the first thermoelement is formed from Ni alloys, andwherein Ni is the largest component by weight of the Ni alloys. 12. The thermocouple according to claim 1, wherein at least a portion of an outer surface of the metal alloy outer sheath is coated with an intermetallic or is coated using chromizing. 13. The thermocouple according to claim 12, wherein the at least a portion of the outer surface of the metal alloy outer sheath is coated with the intermetallic, andwherein the intermetallic is a nickel-aluminide or platinum-doped nickel-aluminide. 14. The thermocouple according to claim 1, wherein the nickel-based inner sheath is adapted to prevent diffusion of contaminants, which if absorbed by the first thermoelement would change a Seebeck coefficient of the first thermoelement, from the metal alloy outer sheath to the first thermoelement, along the cable portion of the thermocouple, during exposure of the thermocouple to temperatures above 1000° C. 15. The thermocouple according to claim 8, wherein the cable portion of the thermocouple further comprises: an insulating material positioned: (i) between the first thermoelement and the second thermoelement;(ii) between the first thermoelement and an inner surface of the nickel-based inner sheath; and(iii) between the second thermoelement and the inner surface of the nickel-based inner sheath,such that: (a) the first thermoelement and the second thermoelement are insulated from each other;(b) the first thermoelement is insulated from the inner surface of the nickel-based inner sheath; and(c) the second thermoelement is insulated from the inner surface of the nickel-based inner sheath. 16. The thermocouple according to claim 1, wherein the thermocouple is configured to prevent oxidation of the first thermoelement and the second thermoelement when the thermocouple is operated in an oxidizing environment above 1000° C. 17. The thermocouple according to claim 14, wherein the metal alloy outer sheath contains: (i) manganese;(ii) chromium; or(iii) manganese and chromium, andwherein the nickel-based inner sheath is adapted to: (a) prevent diffusion of manganese:(b) prevent diffusion of chromium; or(c) prevent diffusion of manganese and chromium, respectively, from the metal alloy outer sheath to the first thermoelement, along the cable portion of the thermocouple, during exposure of the thermocouple to temperatures above 1000° C. 18. The thermocouple according to claim 1, wherein the metal alloy outer sheath is formed of an oxidation-resistant metal alloy. 19. The thermocouple according to claim 14, wherein the nickel-based inner sheath has a thickness between 300 and 500 micrometers. 20. The thermocouple according to claim 10, wherein the cable portion of the thermocouple further comprises: an insulating material positioned: (i) between the first thermoelement and an inner surface of the nickel-based inner sheath;(ii) between the second thermoelement and an inner surface of the second nickel-based inner sheath;(iii) between an outer surface of the nickel-based inner sheath and an outer surface of the second nickel-based inner sheath;(iv) between the outer surface of the nickel-based inner sheath and an inner surface of the metal alloy outer sheath; and(v) between the outer surface of the second nickel-based inner sheath and the inner surface of the metal alloy outer sheath,such that: (a) the first thermoelement is insulated from the inner surface of the nickel-based inner sheath;(b) the second thermoelement is insulated from the inner surface of the second nickel-based inner sheath;(c) the outer surface of the nickel-based inner sheath is insulated from the outer surface of the second nickel-based inner sheath;(d) the outer surface of the nickel-based inner sheath is insulated from the inner surface of the metal alloy outer sheath; and(e) the outer surface of the second nickel-based inner sheath is insulated from the inner surface of the metal alloy outer sheath. 21. A method of measuring a temperature, comprising: providing a thermocouple,wherein the thermocouple comprises: a cable portion of the thermocouple; anda tip portion of the thermocouple,wherein the cable portion of the thermocouple comprises: a metal alloy outer sheath;a first thermoelement,wherein the first thermoelement extends within the metal alloy outer sheath;a second thermoelement,wherein the second thermoelement extends within the metal alloy outer sheath; anda nickel-based inner sheath containing less than 10 wt % chromium,wherein the nickel-based inner sheath contains greater than 90 wt % nickel, andwherein the nickel-based inner sheath is positioned between the first thermoelement and the metal or metal alloy outer sheath, andwherein the first thermoelement and the second thermoelement are joined together in electrical contact at the tip portion of the thermocouple;interconnecting the thermocouple to an object;exposing the thermocouple to an oxidizing environment at a temperature above 1000° C.;receiving a voltage from the thermocouple; anddetermining a measured temperature of the object via the voltage. 22. A method for fabricating a thermocouple, wherein the thermocouple comprises: a cable portion of the thermocouple; anda tip portion of the thermocouple,wherein the cable portion of the thermocouple comprises: a metal alloy outer sheath;a first thermoelement,wherein the first thermoelement extends within the metal alloy outer sheath;a second thermoelement,wherein the second thermoelement extends within the metal alloy outer sheath; anda nickel-based inner sheath containing less than 10 wt % chromium,wherein the nickel-based inner sheath contains greater than 90 wt % nickel, andwherein the nickel-based inner sheath is positioned between the first thermoelement and the metal alloy outer sheath, andwherein the first thermoelement and the second thermoelement are joined together in electrical contact at the tip portion of the thermocouple, andwherein the method comprises: forming the metal alloy outer sheath and the nickel-based inner sheath simultaneously by coextrusion or swaging; andjoining the first thermoelement and the second thermoelement together in electrical contact at the tip portion of the thermocouple.
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이 특허에 인용된 특허 (14)
Hall ; Jr. Bertie F. (Ann Arbor MI), Coaxial thermoelements and thermocouples made from coaxial thermoelements.
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