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SN/T 1504.5-2017: Plastics used for food container and package. Part 5: Determination of elemental content in polyolefins. X-ray fluorescence spectrometry
Status: Valid SN/T 1504.5: Evolution and historical versions
| Standard ID | Contents [version] | USD | STEP2 | [PDF] delivered in | Standard Title (Description) | Status | PDF |
| SN/T 1504.5-2017 | English | 139 |
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Plastics used for food container and package. Part 5: Determination of elemental content in polyolefins. X-ray fluorescence spectrometry
| Valid |
SN/T 1504.5-2017
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| SN/T 1504.5-2005 | English | 239 |
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Plastics used for food container and package. Part 5: Determination of elemental content in polyolefins. X ray fluorescence spectrometry
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SN/T 1504.5-2005
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PDF similar to SN/T 1504.5-2017
Basic data | Standard ID | SN/T 1504.5-2017 (SN/T1504.5-2017) | | Description (Translated English) | Plastics used for food container and package. Part 5: Determination of elemental content in polyolefins. X-ray fluorescence spectrometry | | Sector / Industry | Commodity Inspection Standard (Recommended) | | Classification of Chinese Standard | A82 | | Classification of International Standard | 55.100 | | Word Count Estimation | 6,614 | | Date of Issue | 2017-07-21 | | Date of Implementation | 2018-03-01 | | Older Standard (superseded by this standard) | SN/T 1504.5-2005 | | Quoted Standard | ASTM C1118; ASTM E1621 | | Regulation (derived from) | State-Quality-Inspection-Accreditation (2017) 337 | | Issuing agency(ies) | General Administration of Customs | | Summary | This standard specifies the wavelength dispersion X-ray fluorescence spectrometric method for the content of fluorine, sodium, magnesium, aluminum, silicon, phosphorus, sulfur, calcium, titanium, chromium and zinc in the food container and packaging polyolefin. This section applies to the determination of the content of impurity elements fluorine, sodium, magnesium, aluminum, silicon, phosphorus, sulfur, calcium, titanium, chromium and zinc in food containers and packaging polyolefins. This section does not apply to the determination of the content of impurity elements in polyolefins containing bromine and cerium oxide flame retardants. | SN/T 1504.5-2017: Plastics used for food container and package. Part 5: Determination of elemental content in polyolefins. X-ray fluorescence spectrometry
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Plastics used for food container and package.Part 5. Determination of elemental content in polyolefins. X-ray fluorescence spectrometry
People's Republic of China entry and exit inspection and quarantine industry standards
Replace SN/T 1504.5-2005
Food containers, plastic materials for packaging
Part 5. Determination of content of impurity elements in polyolefin
X-ray fluorescence spectrometry
Part 5.Determinationofelementalcontentinpolyolefins-
Released on.2017-07-21
2018-03-01 implementation
People's Republic
The General Administration of Quality Supervision, Inspection and Quarantine issued
Entry-Exit Inspection and Quarantine
Industry Standard
Food containers, plastic materials for packaging
Part 5. Determination of content of impurity elements in polyolefin
X-ray fluorescence spectrometry
China Standard Press Publishing
First edition, May.2018
Foreword
SN/T 1504 "Food Containers, Plastic Materials for Packaging" is divided into 5 parts.
--- Part 1. Determination of phenolic antioxidants and succinic acid slip agents in polypropylene homopolymers.
--- Part 2. Determination of antioxidants and erucamide slips in polyethylene - Liquid chromatography;
---Part 3. Determination of butyl-hydroxytoluene in ethylene polymers and ethylene-vinyl acetate copolymers.
---Part 4. Determination of phenolic antioxidants in high-density polyethylene -
---Part 5. Determination of content of impurity elements in polyolefins by X-ray fluorescence spectrometry.
This part is the fifth part of SN/T 1504.
This part is drafted in accordance with the rules given in GB/T 1.1-2009.
This part replaces SN/T 1504.5-2005 "Plastic materials for food containers and packaging - Part 5. Contents of impurity elements in polyolefins
Determination of X-ray fluorescence spectrometry.
Compared with SN/T 1504.5-2005, the main technical changes in this section are as follows.
--- Added tests for fluorine, sodium, magnesium, aluminum, sulfur, calcium, titanium, chromium, etc.;
--- The thickness of the sample and the preparation of the sample were refined to accommodate the determination of different impurity elements.
The technical content of this part refers to the content of ASTM D6247-11, in which the title is modified as "food containers, plastic materials for packaging.
Part 5. Determination of content of impurity elements in polyolefins by X-ray fluorescence spectrometry.
This part is proposed and managed by the National Certification and Accreditation Administration.
This section drafted by. Tianjin Entry-Exit Inspection and Quarantine Bureau of the People's Republic of China.
The main drafters of this section. Lu Gang, Pan Hongrui, Cao Lijing, Song Heshuai, Wang Yuanyuan, Zhang Yubao, Feng Jie.
The previous versions of the standards replaced by this section are.
---SN/T 1504.5-2005.
Food containers, plastic materials for packaging
Part 5. Determination of content of impurity elements in polyolefin
X-ray fluorescence spectrometry
1 Scope
This part of SN/T 1504 specifies the impurity elements fluorine, sodium, magnesium, aluminum, silicon, phosphorus, sulfur, calcium, titanium in food containers and packaging polyolefins.
Wavelength dispersive X-ray fluorescence spectrometry for chromium and zinc content.
This section applies to the content of fluorine, sodium, magnesium, aluminum, silicon, phosphorus, sulfur, calcium, titanium, chromium and zinc in the food containers and packaging polyolefins.
Determination.
This section does not apply to the determination of the content of impurity elements in polyolefins containing bromine and cerium oxide flame retardants.
2 Normative references
The following documents are indispensable for the application of this document. For dated references, only the dated version applies to this article.
Pieces. For undated references, the latest edition (including all amendments) applies to this document.
ASTMC1118 Wavelength Dispersive X-Ray Fluorescence System Component Selection
ASTME1621 Standard Guide for X-Ray Divergence Spectroscopy
3 Method summary
Prepare a clean, uniform sample using compression molding or injection molding. Place the sample into the WDXRF instrument and use primary X-ray light.
Beam illumination, which causes each element to produce fluorescence at a specific wavelength (line), depending on the detector, concentration range, and other elements in the matrix.
The characteristic line of the test element and the instrument test conditions. The intensity of the line is compared using a standard curve to determine the content of the element to be tested.
Note. The WDXRF can be corrected using the basic parameter method.
4 Reagents and materials.
4.1 P-10 gas. a mixture of 90% argon and 10% methane (ultra-high purity or equivalent ultra-high purity) with a barometer with adjustable flow.
4.2 Nitrogen. Pre-purified or equivalent to clean the melting chamber.
4.3 Standard sample of each element. The compound of the element to be tested is melted in the polymer standard sample. Each element compound should have a corresponding purity certificate
Dry, dry before use, put in a desiccator to save.
4.4 Reference sample. Prepared as described in Chapter 6.
4.5 Monitoring samples. Calibrate instrument drift (eg electron beam change or long-range X-ray decay).
Note. Select a monitoring sample with durability that should contain elements close to the upper or lower limit of the analyte. Monitor sample measurements before standard calibration,
Then perform periodic re-measurements (such as once a day), then you can explain the drift of the initial measurement and make appropriate corrections to maintain the standard.
The correction is relatively consistent with the initial conditions.
5 instruments
5.1 X-ray fluorescence spectrometer, wavelength-dispersive X-ray fluorescence spectrometer, in accordance with ASTM C1118 and ASTM E1621 guidelines.
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