GB/T 6546-2021 PDF in English
GB/T 6546-2021 (GB/T6546-2021, GBT 6546-2021, GBT6546-2021)
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GB/T 6546-2021 | English | 170 |
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Corrugated fibreboard - Determination of edgewise crush resistance
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GB/T 6546-1998 | English | 75 |
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Corrugated fibreboard. Determination of edgewise crush resistance
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GB/T 6546-1986 | English | RFQ |
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Corrugated fibreboard--Determination of edgewise crush resistance
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Standards related to (historical): GB/T 6546-2021
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GB/T 6546-2021: PDF in English (GBT 6546-2021) GB/T 6546-2021
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 85.010
Y 30
Replacing GB/T 6546-1998
Corrugated fibreboard - Determination of edgewise
crush resistance
[ISO 3037:2013, Corrugated fibreboard - Determination of edgewise
crush resistance (unwaxed edge method), MOD]
ISSUED ON: MAY 21, 2021
IMPLEMENTED ON: DECEMBER 01, 2021
Issued by: State Administration for Market Regulation;
Standardization Administration of the People's Republic of
China.
Table of Contents
Foreword ... 3
1 Scope ... 5
2 Normative references ... 5
3 Terms and definitions ... 5
4 Principle ... 5
5 Instruments ... 6
6 Sampling ... 6
7 Temperature and humidity treatment ... 6
8 Specimen preparation ... 6
9 Test steps ... 7
10 Calculation ... 8
11 Result report ... 9
Annex A (informative) Precision data ... 10
Bibliography ... 12
Corrugated fibreboard - Determination of edgewise
crush resistance
1 Scope
This Standard specifies the method for measuring the edgewise crush
resistance of corrugated fibreboard using the edge-free wax method.
This Standard is applicable to various corrugated fibreboard.
2 Normative references
The following referenced documents are indispensable for the application of
this document. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any
amendments) applies.
GB/T 450, Paper and Board - Sampling for Testing and Identification of
Machine and Cross Direction, Wire Side and Felt Side (GB/T 450-2008, ISO
186:2002, MOD)
GB/T 10739, Paper, board and pulps - STANDARD atmosphere for
conditioning and testing (GB/T 10739-2002, eqv ISO 187:1990)
ISO 13820, Paper, board and corrugated fibreboard -Description and
calibration of compression-testing equipment
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1 edgewise crush resistance
the maximum force value per unit length of the specimen when the corrugated
cardboard specimen is subjected to increasing pressure along the corrugation
direction, until the specimen is crushed
4 Principle
The rectangular corrugated fibreboard specimen is placed between the two
8.2 Use a suitable sampler (5.2). Cut a sufficient number of specimens from the
undamaged area of the sample (8.1). Ensure that 10 valid test results can be
obtained. The height of each specimen (parallel to the direction of the
corrugation) is (25.0±0.5) mm. The length (perpendicular to the corrugated
direction) is (100.0±0.5) mm. The compressed edge of the specimen shall be
cut clean and straight, and meet the requirements of 8.3.
8.3 Each specimen shall be inspected for quality. The inspection content is as
follows:
a) The width of the specimen shall not change more than 0.1mm along the
length.
b) Use the visual method to judge the cleanliness of the cut edge of the
specimen. When inspected under normal laboratory conditions
(fluorescent lamp, no magnifying glass), there is no obvious deformation
of the corrugation, no fluffing or obvious loose fibers at the cutting edge.
c) Straightness, parallelism and perpendicularity can be judged by the
following steps:
Place the two specimens on the same flat plate with the cut edge facing
down, so that the specimens are almost face-to-face in contact. Ideally,
the opposing surfaces of the two specimens shall be absolutely flat, and
the planes on which they are located shall be parallel to each other. But in
the actual test, the flat plate tends to be bent to a certain extent. When the
specimen is placed vertically on the flat plate with the bottom cut edge,
the top cut surfaces of the two specimens are flush and parallel to each
other, at right angles to the adjacent plane, and the cut edges of the
specimen are on the same plane, at this time, it can be considered that
the quality of the specimen meets the requirements of the test. When a
load of about 1N (equivalent to a light finger pressure) is applied to the top
edge of the specimen, there shall be no light through the bottom cut edge.
Then take any two specimens to inspect according to the above method.
NOTE: The quality of the specimen cut may have a significant impact on the test results.
Therefore, it is necessary to check the quality of the specimen with the highest possible
standard.
9 Test steps
After the upper and lower pressure plates of the fixed pressure plate
compression tester (5.1) are separated, place any side of the specimen with a
length of 100mm in the middle of the lower platen. Put a guide block (5.3) on
both sides of the specimen to support the specimen. When the tester pressure
Annex A
(informative)
Precision data
The repeatability and reproducibility data comes from an international circular
comparison conducted by CEPI-CTS in 2011.
The statistical calculation basis is ISO/TR 24498 and TAPPI T 1200.
The repeatability standard deviation reported in Table A.1 is the combined
repeatability standard deviation, that is, the standard deviation calculated using
the root mean square of the standard deviations of all participating laboratories.
This is different from the traditional definition of repeatability in ISO 5725.
The reported repeatability limit and reproducibility limit are the maximum
difference between the two sets of test results obtained from the same material
under the same test conditions, and the maximum difference is not evaluated
at a 95% confidence rate. This evaluation is invalid for different materials or
different test conditions.
The repeatability limit and the reproducibility limit are calculated by multiplying
the repeatability standard deviation and the repeatability standard deviation by
2.77.
NOTE 1: The repeatability standard deviation is equivalent to the laboratory standard
deviation. However, the reproducibility standard deviation is different from the inter-
laboratory standard deviation. The reproducibility standard deviation includes both the
inter-laboratory standard deviation and the intra-laboratory standard deviation. That is:
NOTE 2: , it is assumed that the test results are normally distributed
and the standard deviation s is obtained based on a large number of tests.
Repeatabil
ity
In laboratory In laboratory Inter-laboratory Reproduci
bility
but
...... Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.
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