ASTM B84-07(2019)

This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the
Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.
Designation: B84 − 07 (Reapproved 2019)
Standard Test Method for
Temperature-Resistance Constants of Alloy Wires for
Precision Resistors
ThisstandardisissuedunderthefixeddesignationB84;thenumberimmediatelyfollowingthedesignationindicatestheyearoforiginal
adoptionor,inthecaseofrevision,theyearoflastrevision.Anumberinparenthesesindicatestheyearoflastreapproval.Asuperscript
epsilon (´) indicates an editorial change since the last revision or reapproval.
1. Scope the baths; and suitable means for measuring the resistance of
the specimen. Details of the apparatus are given in Sections 4
1.1 This test method covers determination of the change of
to 6.
resistance with temperature of alloy wires used for resistance
standards and precision resistors for electrical apparatus.
4. Baths
1.2 The values stated in SI units are to be regarded as
4.1 Baths for use from −65 to +15°C may consist of toluol,
standard. No other units of measurement are included in this
or equivalent.
standard.
4.2 Baths for use above 15 to 250°C may consist of
1.3 This standard does not purport to address all of the
chemically neutral oils with a low viscosity, having a flash
safety concerns, if any, associated with its use. It is the
point at least 50°C higher than the temperature of use.
responsibility of the user of this standard to establish appro-
4.3 Theliquidinthesebathsshallbeofsuchquantityandso
priate safety, health, and environmental practices and deter-
well stirred that the temperature in the region occupied by the
mine the applicability of regulatory limitations prior to use.
specimen and the thermometer will be uniform within 0.5°C
1.4 This international standard was developed in accor-
for any temperature between −65 and +100°C, and within
dance with internationally recognized principles on standard-
1.0°C for any temperature above 100 to 250°C. If the
ization established in the Decision on Principles for the
temperature range is less than 100°C, the uniformity of
Development of International Standards, Guides and Recom-
temperature shall be proportionately closer.
mendations issued by the World Trade Organization Technical
Barriers to Trade (TBT) Committee. NOTE 1—It is recommended that a solvent bath at room temperature
shall be used to rinse specimens before immersion in any temperature
bath.
2. Significance and Use
2.1 ProcedureAcovers the determination of the equation of 5. Temperature Measurement Apparatus
the curve relating resistance and temperature where the curve
5.1 The temperature shall be measured to an accuracy of
approximates a parabola. This test method may be used for
60.5°C, or 1% of temperature range, whichever is smaller.
wire of any metal or alloy over the temperature interval
appropriate to the material.
6. Resistance Measurement Apparatus
2.2 Procedure B covers the determination of the mean 6.1 The change of resistance of the specimen shall be
temperature coefficient of resistance for wire of any metal or
measuredbyapparatuscapableofdeterminingsuchchangesto
alloy over the temperature interval appropriate to the material. 0.001% of the resistance of the specimen if the temperature
range is 50°C or more. If the temperature range is less than
3. Apparatus 50°C, the accuracy of the resistance change measurements
shall be correspondingly greater.
3.1 The apparatus for making the test shall consist of one or
6.2 The connections from the specimen to the measuring
more baths for maintaining the specimen at the desired
temperatures; thermometers for measuring the temperatures of device shall be such that changes in the resistance of these
connections due to changes in their temperature do not
appreciably affect the measurement of the change in resistance
of the specimen.
This test method is under the jurisdiction of ASTM Committee B02 on
Nonferrous Metals and Alloys and is the direct responsibility of Subcommittee
6.3 The temperature of the measuring apparatus shall not
B02.10 on Thermostat Metals and Electrical Resistance Heating Materials.
change during the test by an amount sufficient to introduce
Current edition approved April 1, 2019. Published April 2019. Originally
appreciable errors in the results. With apparatus of good
approvedin1931.Lastpreviouseditionapprovedin2013asB84–07(2013).DOI:
10.1520/B0084-07R19. quality, a change in 1°C in room temperature is allowable.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
B84 − 07 (2019)
6.4 The test current shall not be of such a magnitude as to soldered, or welded to each end of the specimen for use as
produceanappreciablechangeinresistanceofthespecimenor terminals. The terminals shall be placed so that the measured
measuring apparatus due to the heating effect. To determine potential does not include the potential drop in the current
experimentally that the test current is not too large, the connections.
specimen may be immersed in a bath having a temperature at
9.3 In coils made of fine wire where there is not sufficient
which it has been found that the wire has a relatively large
rigidityinthecoilitselftofurnishasatisfactorysupportforthe
change in resistance with temperature. Apply the test current
terminals, short lengths of thin glass or ceramic rods may be
and maintain until the resistance of the specimen has become
found across the coil to act as struts and furnish an anchorage
constant. Then increase the current by 40% and maintain at
for the terminals.
thisvalueuntiltheresistancehasagainbecomeconstant.Ifthe
change in resistance is greater than 0.01%, the test current is
10. Preliminary Treatment of Specimen
too large and shall be reduced until the foregoing limitation is
10.1 The finished specimen shall be subjected to a baking
reached.
treatment as necessary to stabilize the resistance of the speci-
6.5 The measurements shall be made in such a way that the
men. For manganin the treatment shall be at 140 6 10°C
effectsofthermoelectromotiveforcesandparasiticcurrentsare
continuously for a period of 48 h.
avoided. When these effects are small, the resistance of the
specimen may be obtained by either of the following methods: 11. Procedure A
6.5.1 Obtain the galvanometer zero with the galvanometer
11.1 Connect the test specimen in the measuring circuit and
key open. Balance the bridge both with the direct and reversed
submerge entirely in the bath. For a check on the constancy of
connection of the battery, the average value of the two results
thespecimen,makeaninitialresistancemeasurementat25°C.
being the resistance of the specimen.
Raise the temperature of the bath or transfer the specimen to a
6.5.2 Obtain the zero of the galvanometer with the galva-
bath maintained constant at the highest temperature at which
nometer key closed and the battery key opened. A single
measurementsaretobemade.Whenthespecimenhasattained
balance of the bridge is then sufficient to obtain the resistance
a constant resistance, record the reading of the measuring
of the specimen.
device and the temperature of the bath.
11.2 Decrease the temperature of the test specimen to the
7. Sampling
next lower temperature either by cooling the bath and main-
7.1 Take one test specimen from each continuous length of
taining it constant at the next lower temperature, or by
the material to be tested.
removingthespecimentoanotherbathmaintainedatthelower
temperature. When the resistance of the specimen has become
8. Test Specimen
constant, again make observations of resistance and tempera-
8.1 The test specimen shall be of a length that will give a
ture.
resistance that can be measured to the required accuracy.
11.3 In this manner, make a series of determinations of the
8.2 If the wire is insulated, it may be wound in a circular,
change of resistance with temperature for the desired descend-
open coil not less than 50 mm in diameter.
ing temperature range, measurements being taken at intervals
of approximately 10% of the temperature range or any
8.3 If the wire is not insulated, it may be wound on an
temperature interval specified by agreement between producer
insulating form of a type that will not introduce strains in the
and consumer.
wire when subjected to temperature changes.
11.4 Test at not less than four temperatures.
8.4 The tension used in winding shall be no more than
sufficient to produce a neat coil of insulated wire or to prevent
11.5 Note the temperature of the measuring apparatus at
the touching of adjacent turns when bare wire is wound on an
frequent intervals during the test of each specimen.
insulating form.
12. Procedure B
8.5 For fine wires of sufficiently high-resistivity alloys,
straight wire specimens may be used. Precautions should be
12.1 See Section 11, except 11.4. Tests shall be made at not
taken to avoid the introduction of strains in the sample during
less than three temperatures, including 25°C.
preparation.
13. Resistance-Temperature Equation
9. Terminals
13.1 Express the results in terms of the constants in an
9.1 For specimens having a resistance so large that the equation of the following form:
resistance of the leads is negligible, a copper wire may be
R 5 R @11α~t 2 25!1β~t 2 25! # (1)
t 25
brazed,soldered,orweldedtoeachendofthespecimenforuse
where:
as a terminal. The resistance of the copper terminals shall be
R = resistanceofthespecimeninohmsattemperature,
less than 0.02% of the resistance of the specimen.
t
°C, t,
9.2 If the resistance of the specimen is less than 10 Ω,so
R = resistanceofthespecimeninohmsatthestandard
that it is necessary to use both current and potential terminals
temperature of 25°C,
in measuring the resistance, two copper wires may be brazed,
B84 − 07 (2019)
β 5 ∆R 1∆R /1 ∆ t (12)
~ ! ~ !
t = temperature of specimen, °C, and 1 2
NOTE 4—A useful alternative method of calculation is presented as
α and β = temperature-resistance constants of the material.
follows: The resistance-temperature equation is referred to 0°C, and
Temperature of maximum or minimum resistance
relative resistance values are used. For example, over the useful range
=25°C−(α⁄2β) from 15 to 35°C, the resistance-temperature curve of manganin is
parabolic and of the form:
NOTE 2—This equation will yield either a maximum or a minimum,
dependingonwhichexistsinthetemperaturerangeinquestion.However, P 5 P 1At1Bt (13)
t 0
this equation is normally used for those alloys such as manganin, having
where:
atemperature-resistancecurveapproximatingaparabolawithamaximum
P = %, ratio of the resistance of the
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