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GB/T 15726-1995 (GBT15726-1995)

GB/T 15726-1995_English: PDF (GBT 15726-1995, GBT15726-1995)
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BASIC DATA
Standard ID GB/T 15726-1995 (GB/T15726-1995)
Description (Translated English) Glassware. stress examination methods
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard N64
Classification of International Standard 71.040.20
Word Count Estimation 5,596
Date of Issue 1995/10/24
Date of Implementation 1996/7/1
Drafting Organization Light Industry Association glassware Quality Supervision and Testing Center
Administrative Organization National Glass Instrument Standardization Technical Committee
Proposing organization China Light Industry Association
Issuing agency(ies) State Bureau of Technical Supervision
Summary This standard specifies the principles of the glassware stress tests, samples, equipment, procedures, calculations, report content. This standard applies to the glassware after annealing stress test.

Standards related to: GB/T 15726-1995

GB/T 15726-1995
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 71.040.20
N 64
Glassware - Stress examination methods
ISSUED ON. OCTOBER 24, 1995
IMPLEMENTED ON. JULY 01, 1996
Issued by. State Bureau of Technical Supervision
Table of Contents
1 Subject content and scope of application ... 3 
2 Principle ... 3 
3 Specimen ... 3 
4 Instruments ... 4 
5 Testing procedures ... 4 
6 Representation of test results ... 6 
7 Testing report ... 7 
Additional information ... 7 
Glassware - Stress examination methods
1 Subject content and scope of application
This standard specifies the principle, specimen, instrument, procedure,
calculation method and report content of the stress examination of glassware.
This standard applies to the stress examination of glassware after annealing.
2 Principle
Usually glass is an isotropic homogeneous material. When stress exists, it will
exhibit anisotropy and produce birefringence of light. The optical path difference
of birefringence ΔS has a relationship with stress.
Where.
ΔS - The optical path difference of birefringence;
σ - The difference of the two principal stresses perpendicular to the direction
of light propagation, N/mm2;
K - The stress optical constant of glass, 10-6 mm2/N;
d - The length (thickness) of optical path in the glass specimen, cm.
The stress optical constant K of the same type of glass is the same, so it may
use the difference of optical path per unit thickness to express the magnitude
of the stress. This standard specifies the measurement method of using the
polarized stress meter to measure the difference of optical path, as well as
using the difference of optical path per unit thickness to indicate the internal
stress of the product.
3 Specimen
3.1 The specimen shall be a glass instrument that has not been tested after
annealing.
3.2 Specimen must be placed in the laboratory in advance for more than 30
minutes.
5.4.1.1 Place the sample to be tested into the dark field of view wherein a
quarter-wave plate is placed, observe the bottom from the mouth. At this time,
a dark cross will appear in the field of view. If the stress of the specimen is small,
then the dark cross is blurred.
5.4.1.2 Rotate the analyzer to separate the dark cross into two arcs moving in
opposite directions. As the dark area moves outward, the concave side of the
arc will appear blue-gray. Continue to rotate the analyzer until the blue-gray is
just replaced by brown.
5.4.1.3 Rotate the specimen around the axis to find the maximum stress point,
rotate the analyzer until the blue-gray is replaced by brown, record the angle of
rotation of the analyzer as well as the thickness of the point.
5.4.2 Measurement of sample walls or similar walls
5.4.2.1 Place the sample into the field of view, so that the axis of the sample is
at 45° with the plane of polarization. At this time, there will be different areas of
light and dark on the sample wall, select the brightest point, which is the
maximum stress point.
5.4.2.2 Rotate the analyzer, until the dark area on the wall is converging to
completely replace the bright area. Read the angle of rotation of the analyzer
and rotate the sample slightly along the axis. If the converged dark area is
stable in brightness, the wall thickness of the two layers of glass is the length
of its optical path.
5.4.2.3 If the brightness of the converged dark area changes indefinitely, find a
reference area nearby, which shall have a small or constant optical path
difference or both, then follow clause 5.4.2.2 to determine the optical path
difference of the reference area, then slightly tilt it to make the light pass through
the wall thickness of one layer of reference area and one layer of tested area;
use the obtained optical path difference to minus 1/2 of the optical path
difference of the reference area, to obtain the optical path difference of the
single-layer wall of the measured part. If the oblique angle from the vertical is
greater than 10°, it shall follow the diagram below to calculate the actual optical
path.
...