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YS/T 555.2-2009: Methods for chemical analysis of molybdenum concentrate. Determination of silicon dioxide content. Silicon molybdenum blue spectrophotometry and gravimetry
Status: Valid YS/T 555.2: Evolution and historical versions
| Standard ID | Contents [version] | USD | STEP2 | [PDF] delivered in | Standard Title (Description) | Status | PDF |
| YS/T 555.2-2009 | English | 209 |
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Methods for chemical analysis of molybdenum concentrate. Determination of silicon dioxide content. Silicon molybdenum blue spectrophotometry and gravimetry
| Valid |
YS/T 555.2-2009
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| YS/T 555.2-2006 | English | 199 |
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Molybdenum concentrates. Determination of silicon oxide content
| Obsolete |
YS/T 555.2-2006
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PDF similar to YS/T 555.2-2009
Basic data | Standard ID | YS/T 555.2-2009 (YS/T555.2-2009) | | Description (Translated English) | Methods for chemical analysis of molybdenum concentrate. Determination of silicon dioxide content. Silicon molybdenum blue spectrophotometry and gravimetry | | Sector / Industry | Nonferrous Metallurgy Industry Standard (Recommended) | | Classification of Chinese Standard | H14;D43 | | Classification of International Standard | 77.120.99 | | Word Count Estimation | 8,85 | | Date of Issue | 2009-12-04 | | Date of Implementation | 2010-06-01 | | Older Standard (superseded by this standard) | YS/T 555.2-2006 | | Regulation (derived from) | MIIT [2009] No. 66 | | Issuing agency(ies) | Ministry of Industry and Information Technology | | Summary | This standard specifies the determination of molybdenum silica method. This standard applies to the determination of molybdenum in the silica content. Measuring range: 0. 10% 3. 0%. | YS/T 555.2-2009: Methods for chemical analysis of molybdenum concentrate. Determination of silicon dioxide content. Silicon molybdenum blue spectrophotometry and gravimetry
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Methods for chemical analysis of molybdenum concentrate.Determination of silicon dioxide content.Silici molybdenum blue spectrophotometry and gravimetry
ICS 77.120.99
H14
People's Republic of China Nonferrous Metals Industry Standard
Replacing YS/T 555.2-2006
Chemical analysis of molybdenum concentrate
Determination of the amount of silica
Silicon molybdenum blue spectrophotometry and gravimetric method
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 555 "Molybdenum concentrate chemical analysis method" includes 11 parts.
Methods for chemical analysis of molybdenum concentrates - Determination of molybdenum content - Lead molybdate weight method YS/T 555.1
YS/T 555.2 Methods for chemical analysis of molybdenum concentrates - Determination of silicon dioxide - Mo - Mo - blue spectrophotometric and gravimetric methods
YS/T 555.3 Methods for chemical analysis of molybdenum concentrates - Determination of arsenic content - Atomic fluorescence spectrometry and DDTC-Ag spectrophotometric method
Methods for chemical analysis of molybdenum concentrates - Determination of tin content - Atomic fluorescence spectrometric method YS/T 555.4
Methods for chemical analysis of molybdenum concentrates - Determination of phosphorus content - Phosphorolybdenum blue spectrophotometric method YS/T 555.5
YS/T 555.6 Methods for chemical analysis of molybdenum concentrates - Determination of copper, lead, bismuth and zinc - Flame atomic absorption spectrometric method
YS/T 555.7 Methods for chemical analysis of molybdenum concentrates - Determination of calcium oxide - Flame atomic absorption spectrometric method
YS/T 555.8 Methods for chemical analysis of molybdenum concentrates - Determination of tungsten content Thiocyanate spectrophotometric method
YS/T 555.9 Methods for chemical analysis of molybdenum concentrates - Determination of potassium and sodium content - Flame atomic absorption spectrometric method
YS/T 555.10 Methods for chemical analysis of molybdenum concentrates - Determination of the amount of rhenium Thiocyanate spectrophotometric method
Methods for chemical analysis of molybdenum concentrates - Determination of total oil and moisture content - Gravimetric method YS/T 555.11
This section is part 2.
This part replaces YS/T 555.2-2006 "Determination of the amount of silica in molybdenum concentrate chemical analysis" (GB/T 15079.2-
1994).
The main changes in this part compared with YS/T 555.2-2006 are as follows.
--- increase the precision terms;
--- The text format has been modified to supplement the quality assurance and control terms.
This part of the National Nonferrous Metals Standardization Technical Committee proposed and centralized.
This part is responsible for drafting units. Jinduicheng Molybdenum Industry Group Co., Ltd., China Nonferrous Metals Industry Standard Measurement Quality Institute.
This part participates in the drafting unit. Luoyang Luanchuan Molybdenum Group Co., Ltd., Jiangxi Copper Company (Dexing) Mine New Technology Development Co., Ltd.
the company.
The main drafters of this part. Wang Zhongqi, Wang Guoliang, Su Xiong, Zhu Junkai, Cheng Jingfeng.
This part of the main verifier. Tian Yonghong, beam Binqiang.
This part of the previous version of the standard to replace the release of the situation.
--- GB/T 15079.2-1994;
YS/T 555.2-2006.
Chemical analysis of molybdenum concentrate
Determination of the amount of silica
Silicon molybdenum blue spectrophotometry and gravimetric method
Method 1 silicon molybdenum blue spectrophotometric method
1 Scope
This method specifies the determination of silica content in molybdenum concentrates.
This method is suitable for the determination of silica content in molybdenum concentrate. Measuring range. 0.10% ~ 3.0%.
2 method summary
The samples were melted and decomposed with sodium hydroxide in a silver crucible. Silicon and molybdate were formed in the weak acid medium to form a silicon molybdenum yellow heteropoly acid, with sulfuric acid and lemon
Citric acid to eliminate phosphorus and arsenic interference, with ascorbic acid to silicon molybdenum yellow reduced to silicon molybdenum blue, spectrophotometer at 660nm measured absorbance.
3 reagent
Unless otherwise stated, only the reagents identified as analytical reagents and distilled or deionized water or comparable purity were used in the analysis.
3.1 Sodium hydroxide.
3.2 mixed flux. 2 parts of anhydrous sodium carbonate and 1 part of anhydrous potassium carbonate mixed research fine.
3.3 Nitric acid solution (3 + 97).
3.4 hydrochloric acid solution (1 + 1).
3.5 sulfuric acid solution (2 + 8).
3.6 Ammonium molybdate solution (100g/L). Weigh 10g ammonium molybdate dissolved in 100mL distilled water, filtered and stored in plastic bottles.
3.7 sulfuric acid - citric acid mixture. Weigh 15g citric acid dissolved in 100mL sulfuric acid (3.5).
3.8 ascorbic acid solution (10g/L). Weigh 1g ascorbic acid and dissolve in 100mL sulfuric acid-citric acid mixture (3.7)
Now with).
3.9 Silica standard storage solution. Weigh 0.5000 g of dioxane which was previously melted at 1000 ° C for 1 h and cooled to room temperature in a desiccator
(Reference reagent) was placed in a platinum crucible containing 5 g of a mixed flux (3.2), and a mixed flux of about 2 g was covered thereon,
1000 ℃ muffle furnace burning 30min. Remove the cooling, into the 300mL polytetrafluoroethylene beaker, with hot water leaching, wash crucible,
Heated to the solution clear, cooled, into the 500mL volumetric flask, diluted with water to the scale, mix, immediately transferred to the plastic bottle storage, the solution
1 mL containing 1 mg of silica.
3.10 Silica standard solution. Remove 20.00mL silica standard storage solution (3.9), placed in a.200mL volumetric flask,
Dilute to the mark and mix well. Immediately transferred to the plastic bottle, the solution 1mL containing 100μg of silicon dioxide.
4 instruments
Spectrophotometer.
5 samples
Samples should be pre-off oil and moisture, the particle size should be less than 0.090mm. The sample should be baked at 100 ℃ ~ 105 ℃ for 1h, placed in dry
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