Rockwell Automation 1769-IT6 Compact I/O 1769-IT6 Thermocouple/mV Input Module User Manual

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Rockwell Automation Publication 1769-UM004B-EN-P - March 2010

Appendix C Thermocouple Descriptions

[14] Potts, J. F. Jr.; McElroy, D. L. The effects of cold working, heat treatment,
and oxidation on the thermal emf of nickel-base thermoelements. Herzfeld, C.
M.; Brickwedde, F. G.; Dahl, A. I.; Hardy, J. D., ed. Temperature: Its
Measurement and Control in Science and Industry; Vol. 3, Part 2; New York:
Reinhold Publishing Corp.; 1962. 243-264.

[15] Burley, N. A.; Ackland, R. G. The stability of the thermo-emf/temperature
characteristics of nickel-base thermocouples. Jour. of Australian Inst. of Metals
12(1), 23-31; 1967.

[16] Burley, N. A. Nicrosil and nisil: Highly stable nickel-base alloys for
thermocouples. Temperature: Its Measurement and Control in Science and
Industry; Vol. 4, Plumb, H. H., ed.; Pittsburgh: Instrument Society of America;
1972. 1677-1695.

[17] Wang, T. P.; Starr, C. D. Electromotive force stability of nicrosil-nisil.
Journal of Testing and Evaluation 8(4), 192-198; 1980.

[18] Starr, C. D.; Wang, T. P. Effect of oxidation on stability of thermocouples,
Proceedings of the American Society for Testing and Materials Vol. 63
1185-1194; 1963.

[19] Bentley, R. E. Short-term instabilities in thermocouples containing
nickel-based alloys. High Temperatures- High Pressures 15, 599-611; 1983.

[20] Kollie, T. G.; Horton, J. L.; Carr, K. R.; Herskovitz, M. B.; Mossman, C. A.
Temperature measurement errors with type K (Chromel versus Alumel)
thermocouples due to short-ranged ordering in Chromel. Rev. Sci. Instrum. 46,
1447-1461; 1975.

[21] ASTM, American Society for Testing and Materials, Standard E1159-87,
1992 Annual Book of ASTM Standards. Vol. 14.03; Philadelphia: ASTM;
1992. 388-389.

[22] Bedford, R. E.; Ma, C. K.; Barber, C. R.; Chandler, T. R.; Quinn, T. J.;
Burns, G. W.; Scroger, M. New reference tables for platinum 10%
rhodium/platinum and platinum 13% rhodium/platinum thermocouples.
Temperature: Its Measurement and Control in Science and Industry; Vol. 4, Part
3, p. 1585; Plumb, H. H., ed.; Pittsburgh: Instrument Society of America; 1972.

[23] Burns, G. W.; Strouse, G. F.; Mangum, B. W.; Croarkin, M. C.; Guthrie, W.
F.; Chattle, M. New reference functions for platinum-13% rhodium versus
platinum (type R) and platinum-30% rhodium versus platinum-6% rhodium
(type B) thermocouples based on the ITS-90. in Temperature: Its Measurement
and Control in Science and Industry; Vol. 6; Schooley, J. F., ed.; New York:
American Institute of Physics; 1992. 559-564.