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YS/T 667.3-2009: The testing methods for chemical alumina. Part 3: Determining concentration of cadmium, chromium and vanadium in 4A zeolite by ICP-AES
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| Standard ID | Contents [version] | USD | STEP2 | [PDF] delivered in | Standard Title (Description) | Status | PDF |
| YS/T 667.3-2009 | English | 169 |
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The testing methods for chemical alumina. Part 3: Determining concentration of cadmium, chromium and vanadium in 4A zeolite by ICP-AES
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YS/T 667.3-2009
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Basic data | Standard ID | YS/T 667.3-2009 (YS/T667.3-2009) | | Description (Translated English) | The testing methods for chemical alumina. Part 3: Determining concentration of cadmium, chromium and vanadium in 4A zeolite by ICP-AES | | Sector / Industry | Nonferrous Metallurgy Industry Standard (Recommended) | | Classification of Chinese Standard | H30 | | Classification of International Standard | 71.100.10 | | Word Count Estimation | 6,677 | | Date of Issue | 2009-12-04 | | Date of Implementation | 2010-06-01 | | Regulation (derived from) | MIIT [2009] No. 66 | | Issuing agency(ies) | Ministry of Industry and Information Technology | | Summary | This standard specifies the 4A zeolite cadmium, chromium, vanadium content determination. This standard applies to 4A zeolite cadmium, chromium, vanadium determination. Measuring range: Cd 1 �� 10 ^ (-4)% ~ 5 �� 10 ^ (-3)%, chromium 5 �� 10 ^ (-4)% ~ 5 �� 10 ^ (-3)%, vanadium 5 �� 10 ^ (-4)% ~ 5 �� 10 ^ (-3)%. | YS/T 667.3-2009: The testing methods for chemical alumina. Part 3: Determining concentration of cadmium, chromium and vanadium in 4A zeolite by ICP-AES
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The testing methods for chemical alumina.Part 3. Determining concentration of cadmium, chromium and vanadium in 4A zeolite by ICP-AES
ICS
H30
People's Republic of China Nonferrous Metals Industry Standard
Chemical analysis methods for chemical alumina
Part 3 of the 4A zeolite
Determination of cadmium, chromium and vanadium content
Inductively Coupled Plasma Atomic Emission Spectrometry
2009-12-04 released
2010-06-01 Implementation
Issued by the Ministry of Industry and Information Technology of the People's Republic of China
Foreword
YS/T 667 "Chemical Alumina Chemical Analysis Method" is divided into four parts.
- Part 1 Determination of cadmium, chromium and vanadium content in aluminum hydroxide and pseudo-boehmite for filler - Inductively coupled plasma emission
Spectral method
- Part 2 Determination of arsenic, mercury and lead in aluminum hydroxide and pseudo-boehmite for filler - Hydride generation - Inductively coupled
Ion emission spectroscopy;
- Part 3. Determination of cadmium, chromium and vanadium in zeolite - Inductively coupled plasma - atomic emission spectrometry;
Determination of arsenic and mercury in zeolites - Hydride generation - Inductively coupled plasma - atomic emission spectrometry.
This section is part 3.
Appendix A to this section is an informative appendix.
This part of the National Nonferrous Metals Standardization Technical Committee proposed and centralized.
This part of the drafting unit. China Aluminum Industry Co., Ltd. Shandong Branch, China Nonferrous Metals Industry Standard Measurement Quality Institute.
This part of the main drafters. Zhang Xinyu, Zhong Yi Mei, Zhao Huimin.
The main verifier of this part. Li Yueping, Liang Qian, Wang Shuqin.
Chemical analysis methods for chemical alumina
Part 3 of the 4A zeolite
Determination of cadmium, chromium and vanadium content
Inductively Coupled Plasma Atomic Emission Spectrometry
1 Scope
This part of YS/T 667 specifies the determination of cadmium, chromium and vanadium in 4A zeolite.
This part is applicable to the determination of cadmium, chromium and vanadium in 4A zeolite. Determination of the range. cadmium 1 × 10-4% ~ 5 × 10-3%; chromium 5 × 10-4% ~
5 × 10-3%; vanadium 5 × 10-4% ~ 5 × 10-3%.
2 principle of the method
The sample was dissolved in hydrochloric acid. In dilute hydrochloric acid medium, the argon plasma source was directly introduced into the medium, and the spectrum was measured.
The effect of positive matrix on the determination.
3 reagent
Unless otherwise stated, only deionized water or comparable purity of water is used in the analysis.
3.1 hydrochloric acid 1 + 1 (excellent grade by sub-boiling secondary distillation).
3.2 Cadmium standard solution. This standard stock solution (1mg/mL) by the National Institute of Standards and Materials provided.
3.3 Chrome Standard Solution. This standard stock solution (1mg/mL) is provided by the National Center for Standard Material Research.
3.4 Vanadium standard solution. This standard stock solution (1mg/mL) provided by the National Center for Standard Material Research.
3.5 mixed standard solution. respectively, accurate removal of 1.00mL cadmium standard solution (3.2), 1.00mL chromium standard solution (3.3), 1.00mL
Vanadium standard solution (3.4) in a 100 mL volumetric flask, add 20 mL of hydrochloric acid (3.1), and then dilute to the mark with secondary deionized water and mix.
The concentration of cadmium, chromium and vanadium in this mixed standard solution was 10μg/mL.
3.6 aluminum matrix solution. Weigh 13.2350g pure aluminum ( > 99.999%) in a beaker, add 250mL hydrochloric acid (3.1), low temperature heated to
Dissolve completely. Into the 500mL volumetric flask, cooled to room temperature, diluted with secondary deionized water to the mark, mix. This solution 1L oxygen
Aluminum 50g.
3.7 sodium matrix solution. Weigh 5.08g spectrum of pure sodium chloride (pre-500 ℃ muffle furnace burning 1h, cooled to room temperature) in the beaker,
Add 30mL deionized water cover on the table, placed on the hot plate until the sample completely dissolved, into the 100mL volumetric flask, cooled to room temperature,
Diluted with secondary deionized water to the scale, this solution 1L sodium 20g.
3.8 High purity argon ( > 99.999%).
4 instruments
Full - spectrum direct - reading plasma emission spectrometer.
5 samples
The samples were baked in an oven at 105 ° C ± 5 ° C for 1 h. Placed in a desiccator, cooled to room temperature and immediately weighed.
6 Analysis steps
6.1 samples
Weigh 0.25g sample (5), accurate to 0.0001g.
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