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GB/T 43086-2023 English PDF (GBT43086-2023)
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GB/T 43086-2023: Plastics - Polymer dispersions - Determination of sieve residue
GB/T 43086-2023
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 83.080.01
CCS G 31
Plastics - Polymer dispersions - Determination of sieve
residue
[ISO 4576:1996, Plastics - Polymer dispersions - Determination of sieve
residue (gross particle and coagulum content), MOD]
ISSUED ON: SEPTEMBER 07, 2023
IMPLEMENTED ON: APRIL 01, 2024
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 Method overview ... 5
5 Reagents ... 5
6 Instruments and equipment ... 6
7 Specimen preparation ... 7
8 Test steps ... 7
9 Calculation and presentation of results ... 9
10 Precision ... 9
11 Test report ... 9
Annex A (informative) Comparison on structural numbers ... 11
Foreword
This document was drafted in accordance with the rules given in GB/T 1.1-2020
"Directives for standardization - Part 1: Rules for the structure and drafting of
standardizing documents".
The modification of this document adopts ISO 4576:1996 "Plastics - Polymer
dispersions - Determination of sieve residue (gross particle and coagulum content)".
Compared with ISO 4567:1996, this document has many structural adjustments. See
Annex A for a comparison list of structure number changes between the two documents.
The technical differences between this document and ISO 4576:1996 and their reasons
are as follows:
- The provision for "particles whose particle size is much larger than the average
particle size of other particles (such as 10 times or 100 times)" has been deleted
(see Chapter 1 of this document) to adapt to the technical conditions of China and
increase operability;
- Water of the same purity (see 5.1 of this document) has been deleted to adapt to the
technical conditions of China;
- Replace ISO 3310-1:1990 (see 6.1 of this document) with normatively cited GB/T
6003.1-2022 to adapt to the technical conditions of China and increase operability;
- The temperature control accuracy of the test chamber has been added (see 6.6 of
this document) to improve the accuracy of test results;
- The capacity of the 500 mL beaker has been added (see 6.8 of this document), and
the 600 mL specification beaker in the original text has been deleted to adapt to
the technical conditions of China;
- General laboratory instruments (see 6.10 of this document) have been added to
facilitate operator use;
- Replace ISO 123:1985 and ISO 842:1984 (see 7.1 of this document) with
normatively cited GB/T 3186-2006. There is no consistent correspondence
between the two documents to adapt to the technical conditions of China and
increase operability;
- Add requirements for coarse filtration of sampling (see 7.2 of this document) to
improve the accuracy of test results;
- Add post-sampling test time (see 7.2 of this document) to improve the accuracy of
test results;
Plastics - Polymer dispersions - Determination of sieve
residue
1 Scope
This document describes a method for the determination of the mass fraction of sieve
residues, i.e., coarse particles and coagulum, in polymer dispersions.
This document applies only to coagulated polymer dispersions.
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 3186-2006, Paints, varnishes and raw materials for paints and varnishes -
Sampling
GB/T 6003.1-2022, Test sieves - Technical requirements and testing - Part 1: Test
sieves of metal wire cloth (ISO 3310-1:2016, MOD)
3 Terms and definitions
There are no terms or definitions to be defined in this document.
4 Method overview
Dilute the polymer dispersion with deionized water. Use metal mesh filtration with
specific mesh size. Wash with deionized water. Dry and weigh its mass.
5 Reagents
5.1 Deionized water.
5.2 Surfactant: To stabilize the polymer dispersion during testing (if necessary), to be
agreed upon by the parties involved.
(6.4) to weigh the mass of the specimen to the nearest 1 mg, recorded as m0. The
specimen mass can be increased according to the measurement accuracy, but shall not
exceed 1000 g.
8.2 Dilute the specimen with twice the mass of the specimen in the deionized water
(5.1). Stir with a glass rod or slowly rotating stirrer to mix thoroughly without disrupting
existing agglomerates. If necessary, add an appropriate amount of surfactant (5.2)
before dilution.
NOTE: Dilution with water is used to prevent film formation and promote flow, resulting in rapid
and complete filtration. The purpose of the surfactant is to prevent further agglomeration or
coagulation during testing.
8.3 When the test sieve is not clean, soak it in boiling water for 30 min. Then rinse with
acetone. When boiling water cannot clean the screen, you can clean the screen by
burning it at high temperature or use other appropriate cleaning methods. Rinse with
acetone. Dry and set aside. For non-metal mesh test sieves, appropriate cleaning
methods shall be used.
8.4 Place the clean test sieve (6.1) of appropriate size into the test chamber (6.6) and
dry to constant weight. The temperature shall be 105℃±2℃. Other optional
temperatures are 125°C or 140°C. The choice of temperature depends on the stability
of the polymer and the additives it contains.
8.5 Place the test sieve after constant weight in the desiccator (6.7) to cool to room
temperature. Use the balance (6.3) to weigh the test sieve to the nearest 0.1 mg, recorded
as m1.
8.6 Place the test sieve on the steel ring or glass funnel (6.2). Wet or wash the test sieve
with deionized water (5.1) or a suitable surfactant (5.2). Pour the diluted sample into
the center of the test sieve.
8.7 After filtration is completed, wash the residue on the test sieve with deionized water
or an appropriate surfactant (5.2). Then wash with deionized water until a clear filtrate
is obtained.
8.8 Dry the test sieve with residue at 105°C ±2°C or other temperature for 30 min. Place
in a desiccator to cool to room temperature and weigh. Repeat drying for 15 min and
weigh the mass until constant weight.
8.9 Weigh the test sieve with residue to the nearest 0.1 mg, recorded as m2.
8.10 Repeat steps 8.1~8.8. Carry out the determination in duplicate.
9 Calculation and presentation of results
9.1 Calculate the sieve residue content W of test sieves of different specifications
according to formula (1):
Where,
W - Screen residue content of test sieve, %;
m2 - The mass of test sieve and residue, in grams (g);
m1 - The mass of the test sieve, in grams (g);
m0 - The sample mass, in grams (g);
9.2 Calculate the arithmetic mean of the two measurements and keep it to one decimal
place. The absolute difference between two independent test results shall not be greater
than 5% of the average value. Otherwise, the measurement shall be re-measured until
the requirements are met.
10 Precision
In the same laboratory, the same operator uses the same equipment, according to the
same test method, and the same measured object is tested independently within a short
period of time. The absolute difference between the two independent test results
obtained is not greater than 8% of the arith...
Get QUOTATION in 1-minute: Click GB/T 43086-2023
Historical versions: GB/T 43086-2023
Preview True-PDF (Reload/Scroll if blank)
GB/T 43086-2023: Plastics - Polymer dispersions - Determination of sieve residue
GB/T 43086-2023
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 83.080.01
CCS G 31
Plastics - Polymer dispersions - Determination of sieve
residue
[ISO 4576:1996, Plastics - Polymer dispersions - Determination of sieve
residue (gross particle and coagulum content), MOD]
ISSUED ON: SEPTEMBER 07, 2023
IMPLEMENTED ON: APRIL 01, 2024
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 Method overview ... 5
5 Reagents ... 5
6 Instruments and equipment ... 6
7 Specimen preparation ... 7
8 Test steps ... 7
9 Calculation and presentation of results ... 9
10 Precision ... 9
11 Test report ... 9
Annex A (informative) Comparison on structural numbers ... 11
Foreword
This document was drafted in accordance with the rules given in GB/T 1.1-2020
"Directives for standardization - Part 1: Rules for the structure and drafting of
standardizing documents".
The modification of this document adopts ISO 4576:1996 "Plastics - Polymer
dispersions - Determination of sieve residue (gross particle and coagulum content)".
Compared with ISO 4567:1996, this document has many structural adjustments. See
Annex A for a comparison list of structure number changes between the two documents.
The technical differences between this document and ISO 4576:1996 and their reasons
are as follows:
- The provision for "particles whose particle size is much larger than the average
particle size of other particles (such as 10 times or 100 times)" has been deleted
(see Chapter 1 of this document) to adapt to the technical conditions of China and
increase operability;
- Water of the same purity (see 5.1 of this document) has been deleted to adapt to the
technical conditions of China;
- Replace ISO 3310-1:1990 (see 6.1 of this document) with normatively cited GB/T
6003.1-2022 to adapt to the technical conditions of China and increase operability;
- The temperature control accuracy of the test chamber has been added (see 6.6 of
this document) to improve the accuracy of test results;
- The capacity of the 500 mL beaker has been added (see 6.8 of this document), and
the 600 mL specification beaker in the original text has been deleted to adapt to
the technical conditions of China;
- General laboratory instruments (see 6.10 of this document) have been added to
facilitate operator use;
- Replace ISO 123:1985 and ISO 842:1984 (see 7.1 of this document) with
normatively cited GB/T 3186-2006. There is no consistent correspondence
between the two documents to adapt to the technical conditions of China and
increase operability;
- Add requirements for coarse filtration of sampling (see 7.2 of this document) to
improve the accuracy of test results;
- Add post-sampling test time (see 7.2 of this document) to improve the accuracy of
test results;
Plastics - Polymer dispersions - Determination of sieve
residue
1 Scope
This document describes a method for the determination of the mass fraction of sieve
residues, i.e., coarse particles and coagulum, in polymer dispersions.
This document applies only to coagulated polymer dispersions.
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 3186-2006, Paints, varnishes and raw materials for paints and varnishes -
Sampling
GB/T 6003.1-2022, Test sieves - Technical requirements and testing - Part 1: Test
sieves of metal wire cloth (ISO 3310-1:2016, MOD)
3 Terms and definitions
There are no terms or definitions to be defined in this document.
4 Method overview
Dilute the polymer dispersion with deionized water. Use metal mesh filtration with
specific mesh size. Wash with deionized water. Dry and weigh its mass.
5 Reagents
5.1 Deionized water.
5.2 Surfactant: To stabilize the polymer dispersion during testing (if necessary), to be
agreed upon by the parties involved.
(6.4) to weigh the mass of the specimen to the nearest 1 mg, recorded as m0. The
specimen mass can be increased according to the measurement accuracy, but shall not
exceed 1000 g.
8.2 Dilute the specimen with twice the mass of the specimen in the deionized water
(5.1). Stir with a glass rod or slowly rotating stirrer to mix thoroughly without disrupting
existing agglomerates. If necessary, add an appropriate amount of surfactant (5.2)
before dilution.
NOTE: Dilution with water is used to prevent film formation and promote flow, resulting in rapid
and complete filtration. The purpose of the surfactant is to prevent further agglomeration or
coagulation during testing.
8.3 When the test sieve is not clean, soak it in boiling water for 30 min. Then rinse with
acetone. When boiling water cannot clean the screen, you can clean the screen by
burning it at high temperature or use other appropriate cleaning methods. Rinse with
acetone. Dry and set aside. For non-metal mesh test sieves, appropriate cleaning
methods shall be used.
8.4 Place the clean test sieve (6.1) of appropriate size into the test chamber (6.6) and
dry to constant weight. The temperature shall be 105℃±2℃. Other optional
temperatures are 125°C or 140°C. The choice of temperature depends on the stability
of the polymer and the additives it contains.
8.5 Place the test sieve after constant weight in the desiccator (6.7) to cool to room
temperature. Use the balance (6.3) to weigh the test sieve to the nearest 0.1 mg, recorded
as m1.
8.6 Place the test sieve on the steel ring or glass funnel (6.2). Wet or wash the test sieve
with deionized water (5.1) or a suitable surfactant (5.2). Pour the diluted sample into
the center of the test sieve.
8.7 After filtration is completed, wash the residue on the test sieve with deionized water
or an appropriate surfactant (5.2). Then wash with deionized water until a clear filtrate
is obtained.
8.8 Dry the test sieve with residue at 105°C ±2°C or other temperature for 30 min. Place
in a desiccator to cool to room temperature and weigh. Repeat drying for 15 min and
weigh the mass until constant weight.
8.9 Weigh the test sieve with residue to the nearest 0.1 mg, recorded as m2.
8.10 Repeat steps 8.1~8.8. Carry out the determination in duplicate.
9 Calculation and presentation of results
9.1 Calculate the sieve residue content W of test sieves of different specifications
according to formula (1):
Where,
W - Screen residue content of test sieve, %;
m2 - The mass of test sieve and residue, in grams (g);
m1 - The mass of the test sieve, in grams (g);
m0 - The sample mass, in grams (g);
9.2 Calculate the arithmetic mean of the two measurements and keep it to one decimal
place. The absolute difference between two independent test results shall not be greater
than 5% of the average value. Otherwise, the measurement shall be re-measured until
the requirements are met.
10 Precision
In the same laboratory, the same operator uses the same equipment, according to the
same test method, and the same measured object is tested independently within a short
period of time. The absolute difference between the two independent test results
obtained is not greater than 8% of the arith...
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