ASTM C1351M-96(2007)

NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.
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Designation: C1351M – 96 (Reapproved 2007)
Standard Test Method for
Measurement of Viscosity of Glass Between 10 Pa·s and
10 Pa·s by Viscous Compression of a Solid Right Cylinder
[Metric]
This standard is issued under the fixed designation C1351M; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision.Anumber in parentheses indicates the year of last reapproval.A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
1. Scope
Mgh
h52p (1)
1.1 This test method covers the determination of the viscos- 30V ~dh/dt!~2ph 1 V!~11aT!
4 8
ity of glass from 10 Pa·s to 10 Pa·s by measuring the rate of
where:
viscous compression of a small, solid cylinder.
h = viscosity, Pa·s,
1.2 The values stated in SI units are to be regarded as the
M = applied load, g,
standard. 2
g = acceleration due to gravity, 980 cm/s ,
1.3 This standard does not purport to address all of the
t = time, s,
safety concerns, if any, associated with its use. It is the
V = specimen volume, cm ,
responsibility of the user of this standard to establish appro-
h = specimen thickness at time t, cm,
priate safety and health practices and determine the applica-
dh/dt = compression rate, cm/s, and
bility of regulatory limitations prior to use. a = glass mean coefficient of thermal expansion, 25°C
to the measurement temperature, T, m/m/°C. See
2. Referenced Documents
Note 1.
2.1 ASTM Standards:
NOTE 1—The term (1+ aT) corrects for the specimen dimensional
C338 Test Method for Softening Point of Glass
changes due to thermal expansion. For low thermal expansion glasses, it
−6
C965 Practice for Measuring Viscosity of Glass Above the
can be ignored. However, for a glass with an a of 20 310 /°C at a
Softening Point
measurement temperature of 1000°C, this term produces a correction of
C1350M Test Method for Measurement of Viscosity of 2%. Only an estimate of a is necessary since the correction is small. Use
twice the room temperature coefficient if data are unavailable.
Glass Between Softening Point and Annealing Range
8 13
(Approximately 10 Pa·s to Approximately 10 Pa·s) by
4. Significance and Use
Beam Bending (Metric)
4.1 This test method is well suited for measuring the
3. Terminology
viscosity of glasses between the range within which rotational
viscometry (see Practice C965) is useful and the range within
3.1 parallel plate viscometer—a device used to determine
4 8
which beam bending viscometry is useful (see Test Method
the viscosity of glass from approximately 10 Pa·s to 10 Pa·s
C1350M). It can be used to determine the viscosity/
by measuring the rate of change in thickness of a cylindrical
temperature curve in the region near the softening point (see
specimenbetweenparallelplatesmovingperpendiculartotheir
Test Method C338). This test method is useful for providing
commoncentralaxis.Theequationforcalculatingviscosityby
information related to the behavior of glass as it is formed into
the parallel plate method is:
an object of commerce, and in research and development.
This test method is under the jurisdiction of ASTM Committee C14 on Glass
5. Apparatus
and Glass Products and is the direct responsibility of Subcommittee C14.04 on
5.1 The apparatus shall consist of a furnace, a means of
Physical and Mechanical Properties.
Current edition approved April 1, 2007. Published May 2007. Originally controlling and measuring its temperature and heating rate,
approved in 1996. Last previous edition approved in 2002 as C1351M-96(2002).
specimen holders and loading rod, and a means of measuring
DOI: 10.1520/C1351M-96R07.
the rate of viscous compression of the glass specimen.
Fontana, E. H., “A Versatile Parallel-Plate Viscometer For Glass Viscosity
5.2 Furnace:
Measurements to 1000°C,” Bulletin of the American Ceramic Society, Vol 49, No.
6, 1970, pp. 594–597. 5.2.1 The furnace shall be electrically heated by resistance
For referenced ASTM standards, visit the ASTM website, www.astm.org, or
elements. The dimensions and details of the furnace construc-
contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
tion are not critical; its cross-section can be circular of 75 mm
Standards volume information, refer to the standard’s Document Summary page on
the ASTM website. ('3 in.) diameter or square of sides of 75 mm. The furnace
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.
C1351M – 96 (2007)
should have a constant temperature zone that covers the
specimen geometry, including the compression range. Differ-
ences in temperature greater than 2°C within the constant
temperature zone are unacceptable.
5.3 Temperature Measuring and Indicating Instruments:
5.3.1 For the measurement of temperature, there shall be
provided a calibrated Type K, R, or S thermocouple. The
thermocouple shall be housed in a double-bore alumina tube
with its junction placed within 5 mm of the specimen near the
axis of the furnace. The thermocouple shall be referenced to
0°C by means of an ice bath, and its emf measured with a
calibrated potentiometer that can be read with a sensitivity
equivalent to6 0.1°C and an accuracy of 60.5°C. Precautions
shall be taken to ensure that the ice bath is maintained at 0°C
throughoutthetest.Alternately,theoutputofthethermocouple
can be measured on a calibrated, direct reading meter (elec-
tronic thermometer) that can be read with a sensitivity of
60.1°C and an accuracy of 60.5°C. See Note 3 for tempera-
ture lag-lead corrections.
5.4 Furnace Control:
5.4.1 Suitable means shall be provided for maintaining the
furnace at a fixed control point and for controlling the heating
and cooling rates. Commercially available programming
equipment provides excellent control. A variable transformer
withmanualcontrolisaninexpensive,butlessadequatemeans
of accomplishing the required control.
5.5 Specimen Holder and Loading Rod:
5.5.1 A typical configuration is presented in Fig. 1. Posi-
tioned horizontally on top of the support stand is a stationary
plate (see Note 2),6mm(; ⁄4 in.) thick by diameter of the
FIG. 1 A Typical Parallel Plate Viscometer
support stand. A movable plate, 6 mm thick by 44 mm
minimum diameter is placed parallel and concentrically above
the fixed plate. (See parallel plates in Fig. 1.) Attached to the
5.7.1 Micrometercalipers,whichcanbereadtoanaccuracy
top center of the movable plate in a shrink fit configuration is
of at least 0.01 mm are required for measuring specimen
a 9-mm (; ⁄8-in.) diameter centerless-ground alumina rod of dimensions.
lengthsufficienttoreachapproximately150mm(6in.)beyond
6. Preparation of Test Specimen
the top of the furnace or its supporting structure, or both. This
assembly provides a means for loading the specimen during
6.1 Specimens required for this test method are small, right,
measurement. Bushings attached to the external frame guide
circular cylinders. Nominal dimensions are 6 mm (; ⁄4 in.) to
the shaft with a minimum amount of friction.
12mm(; ⁄2in.)diameterand3to6mmthick.Specimenscan
be either core-drilled from flat stock or sliced from a rod. In
NOTE 2—Alumina and vitreous silica are suitable materials for the
both cases, the flat surfaces must be ground and polished to be
assemblycomponents,asarenobleorlowexpansionmetalsusedinpairs.
plane-parallel to 60.001 mm. Cylinders made by dry pressing
The user must observe temperature limitations for these alternate materi-
of frit at high pressure can provide meaningful data.
als.
5.6 Extensometer for Measuring Thickness Change:
7. Calibration
5.6.1 The means of observing the rate of thickness change
7.1 Direct calibration of the apparatus is accomplished by
ofthespecimenshouldallowreliablereadingoftotalchangeof
using standard glasses, such as those supplied and certified by
at least 6 mm. The extensometer shall permit direct reading of
the Nati
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