NorthoverE WHitchcockJ A‘The effect of heating on the local thermoelectric power of commercial thermocouple wires’Inst. Practice, 22, 7, 606–611, 1968.
BurleyN A‘Nicrosil and Nisil: highly stable nickel-base alloys for thermocouples’Temperature, its measurement and control in science and industryVol. 4, pp 1677–1695, 1972. Instrument Society of America, Pittsburgh.
4.
BurleyN A‘The nicrosil versus nisil thermocouple: properties and thermoelectric reference data'. NBS (USA) Monograph 161, 1978.
5.
StarrC DWangT P‘A new stable nickel-base thermocouple’J of Testing and Evaluation, 4, 1, 42–56, Jan. 1976.
6.
WangT PStarrC D‘Electromotive force stability of nicrosil-nisil’J of Testing and Evaluation, 8, 4, 192–198, Jul. 1980.
7.
WangT PStarrC D‘Oxidation resistance and stability of nicrosil-nisil in air and in reducing atmospheres’Temperature, its measurement and control in science and industryVol. 5, pp 1147–1157, 1982. Instrument Society of America, Pittsburgh.
8.
BrookesC‘Nicrosil-nisil: a high stability nickel-based thermocouple to replace Type K’Measurement and Control, 15, 369–370, Oct. 1982.
9.
AndersonR L‘Decalibration of sheathed thermocouples’Temperature, its measurement and control in science and industryVol. 5, pp 977–1007, 1982. Instrument Society of American, Pittsburgh.
10.
BurnsG W‘The nicrosil versus nisil thermocouple: Recent developments and present status’Temperature, its measurement and control in science and industry, Vol. 5, pp 1121–1127, 1982. Instrument Society of America, Pittsburgh.
11.
BurleyN A‘The nicrosil versus nisil thermocouple: A critical comparison with the ANSI standard letter-designated bare-metal thermocouples’Temperature, its measurement and control in science and industryVol. 5, pp 1159–1166, 1982. Instrument Society of America, Pittsburgh.
