High-temperature thermocouples and related methods
First Claim
Patent Images
1. A method of manufacturing a thermocouple, comprising:
- forming a thermocouple junction between a first thermoelement wire and a second thermoelement wire formed from thermoelectrically dissimilar materials by swaging a metallic tube onto a first end of the first thermoelement wire and a first end of the second thermoelement wire;
threading the first thermoelement wire through a first longitudinal passageway formed in a first electrical insulating material and threading the second thermoelement wire through a second longitudinal passageway formed in the first electrical insulating material;
disposing the first electrical insulating material, a second electrical insulating material, and a third electrical insulating material having a different density than the first electrical insulating material and the second electrical insulating material in a sheath, comprising;
interfacing the third electrical insulating material with the second electrical insulating material; and
positioning the thermocouple junction within a void formed in the first electrical insulating material and another void formed in the second electrical insulating material;
swaging the sheath so that the first electrical insulating material and the second electrical insulating material contact the first thermoelement wire, the second thermoelement wire, and the thermocouple junction;
determining a location of the interface between the second electrical insulating material and the third electrical insulating material;
cutting the thermocouple between the thermocouple junction and the interface between the second electrical insulating material and the third electrical insulating material to form a sheath end; and
capping the sheath end with an end plug.
2 Assignments
0 Petitions
Accused Products
Abstract
A high-temperature thermocouple and methods for fabricating a thermocouple capable of long-term operation in high-temperature, hostile environments without significant signal degradation or shortened thermocouple lifetime due to heat induced brittleness.
343 Citations
27 Claims
-
1. A method of manufacturing a thermocouple, comprising:
-
forming a thermocouple junction between a first thermoelement wire and a second thermoelement wire formed from thermoelectrically dissimilar materials by swaging a metallic tube onto a first end of the first thermoelement wire and a first end of the second thermoelement wire; threading the first thermoelement wire through a first longitudinal passageway formed in a first electrical insulating material and threading the second thermoelement wire through a second longitudinal passageway formed in the first electrical insulating material; disposing the first electrical insulating material, a second electrical insulating material, and a third electrical insulating material having a different density than the first electrical insulating material and the second electrical insulating material in a sheath, comprising; interfacing the third electrical insulating material with the second electrical insulating material; and positioning the thermocouple junction within a void formed in the first electrical insulating material and another void formed in the second electrical insulating material; swaging the sheath so that the first electrical insulating material and the second electrical insulating material contact the first thermoelement wire, the second thermoelement wire, and the thermocouple junction; determining a location of the interface between the second electrical insulating material and the third electrical insulating material; cutting the thermocouple between the thermocouple junction and the interface between the second electrical insulating material and the third electrical insulating material to form a sheath end; and capping the sheath end with an end plug. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
-
-
15. A method of fabricating a thermocouple, comprising:
-
forming a thermocouple junction by swaging an end of a first thermoelement wire and an end of a second thermoelement wire formed from thermoelectrically dissimilar materials with a metallic tube; heating a first insulating material, a second insulating material, and a third insulating material at a sufficient temperature and time to remove moisture and impurities contained therein; threading the first thermoelement wire through a first passageway formed in the first insulating material and threading the second thermoelement wire through a second passageway formed in the first insulating material; disposing the first insulating material, the second insulating material, and the third insulating material within a metallic sheath, comprising; forming an interface between the second insulating material and the third insulating material; and positioning the thermocouple junction within a void formed in the first insulating material and another void formed in the second insulating material; swaging the sheath so that the first insulating material and the second insulating material contact the first thermoelement wire, the second thermoelement wire, and the thermocouple junction; cutting the thermocouple at a location between the thermocouple junction and the interface between the second insulating material and the third insulating material to form a sheath end; and capping the sheath end with an end plug. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
-
-
27. A high-temperature thermocouple, comprising:
-
a thermocouple junction between a first thermoelement wire comprising a doped molybdenum and a second thermoelement wire comprising a niobium and zirconium alloy; a first electrical insulating material comprising; a first longitudinal passageway and a second longitudinal passageway formed therein, wherein the first thermoelement wire is at least partially disposed in the first longitudinal passageway and the second thermoelement wire is at least partially disposed in the second longitudinal passageway; and a void formed in the first electrical insulating material for receiving a portion of the thermocouple junction; a second electrical insulating material comprising a void for receiving a portion of the thermocouple junction; a sheath comprising a niobium and zirconium alloy having the first electrical insulating material, material and the second electrical insulating material at least partially disposed therein, wherein the thermocouple junction is at least partially positioned within the void of the first electrical insulating material and the void of the second electrical insulating material, and wherein the first electrical insulating material and the second electrical insulating material is at least partially in contact with the first thermoelement wire, the second thermoelement wire, and the thermocouple junction; and an end plug disposed on an end of the sheath proximate to the thermocouple junction.
-
Specification