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Tests for Coefficient of Mean Linear Thermal Expansion
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YBB 60412012: PDF in English YBB 60412012
YBB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
Tests for Coefficient of Mean Linear Thermal Expansion
Tests for Coefficient of Mean Linear Thermal Expansion
This Method specifies a method for the determination of the mean linear thermal expansion
coefficient of elastic solid glass, which is far below the transformation temperature.
This Method is applicable to the determination of the mean linear thermal expansion coefficient
of pharmaceutical glass of various materials.
[Definition]
(1) Mean linear thermal expansion coefficient a (t0; t)
Within a certain temperature interval, the ratio of the length change of the test object to the
temperature interval and the initial length of the test object is expressed in Formula (1):
Where,
t0---the initial temperature or reference temperature, expressed in (C);
t---the actual temperature of the test object, expressed in (C);
L0---the length of the glass test object at the temperature t0 during the test, expressed in
(mm);
L---the length of the test object at the temperature t, expressed in (mm).
This Method specifies that the nominal reference temperature t0 is 20 C, hence, the mean
linear thermal expansion coefficient is expressed as a (20 C; t).
(2) Transformation temperature tg
This temperature represents the transformation of glass from a brittle state to a viscous
state, which corresponds to the temperature at the intersection of the tangent lines of the
high-temperature part and the low-temperature part of the thermal expansion curve.
[Instruments]
(1) A device for measuring the length of the test object, with an accuracy of 0.1%.
(2) Push rod-type dilatometer (horizontal or vertical), capable of measuring the length change
of the test object 2 105 L0 (i.e., 2 m/100 mm)
The contact force of the length gauge shall not exceed 1.0 N. This force acts through the
contact between the flat surface and the spherical surface. The radius of curvature of the
spherical surface shall not be smaller than the diameter of the test object. In some special
devices, parallel flat surfaces are required.
The device carrying the test object shall ensure that the test object is placed in a stable
position. During the entire test process, the test object shall be on the same axis as the push
rod shaft, so as to prevent any slight changes.
If the device carrying the test object is made of quartz glass, see the precautions given in
Result Expression (2).
Standard materials shall be used for instrument performance testing. For the method, see
Instrument Performance Testing.
(3) Heating furnace
The heating furnace shall be matched to the dilatometer device, and its upper temperature
limit shall be about 50 C higher than the expected transformation temperature. The
working position of the heating furnace relative to the dilatometer shall have reproducibility
within 0.5 mm in both the axial and radial directions.
Within the test temperature range (i.e., the upper temperature limit is 150 C lower than the
highest expected transformation temperature tg, and is at least 300 C), throughout the entire
length of the test object, the furnace temperature shall be kept constant within 2 C.
(4) The furnace temperature control device shall comply with the control requirement of a
lifting rate of 5 C 1 C/min.
(5) Temperature measuring device
Within the temperature range of t0 and t, the temperature of the test object can be accurately
measured, and the error shall be less than 2 C.
[Test Object]
(1) Shape and size
The test object is usually in the shape of a rod, and its shape depends on the type of the
dilatometer used. The length L0 shall be at least 5 104 times the length measurement
resolution of the length measuring device of the dilatometer.
NOTE: for example, the test object can be a round rod with a diameter of 5 mm, or a square rod
with a cross-section of 5 mm 5 mm and a length of 25 ~ 100 mm. In some cases, a cross-
section of 100 mm2 is more convenient.
(2) Preparation
Before testing, the test object shall be annealed: heat the test object to approximately 30
C higher than the transformation temperature, then, at a rate of 2 C/min, cool the test
object to approximately 150 C below the transformation temperature; without ventilation,
further cool the test object to room temperature.
(3) Quantity
For east testing, test two test objects. See Result Expression (4).
[Determination Method]
(1) Selection of test range
The reference temperature (t0) is 20 C (18 ~ 28 C is allowable), and the end temperature
(t) is 300 C (290 ~ 310 C is allowable).
(2) Determination of reference length
At the reference temperature t0, measure the reference length L0 of the annealed test object,
with an accuracy of 0.1%, then, place the test object in the dilatometer and stabilize it for
5 min.
(3) Temperature-rise test
When the initial temperature is t0, determine the position of the dilatometer, and take this
reading as the zero point of the uncorrected length change Lmeas to be measured. Then,
set the furnace temperature control device to the required heating program to start heating.
Record the temperature t and the corresponding length change Lmeas, until reaching the
required end temperature. Unless it is otherwise specified, the heating rate shall not exceed
5 C/min.
In terms of the recorded expansion reading Lmeas during the temperature rise period from
t0 to t, since there is a temperature difference between the hot junction of the thermocouple
and the test object, a correction value shall be added to the apparent temperature of the test
object.
NOTE: this correction value depends on the rate of temperature change and the rate of heat
exchange between the heating furnace and the test object. Basically, the correction value
is determined by comparison with the constant-temperature test.
(4) Constant-temperature test
When the initial temperature is t0, determine the position of the dilatometer, and take this
reading as the zero point of the uncorrected length change Lmeas to be measured. Then,
heat it, until the furnace temperature reaches the selected end temperature t, and maintain
the furnace temperature constant within 2 C. After 20 min, read the value of Lmeas from
the dilatometer.
......
Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.
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