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YS/T 1050.9-2015 English PDF

YS/T 1050.9-2015 (YS/T1050.9-2015, YST 1050.9-2015, YST1050.9-2015)
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YS/T 1050.9-2015English149 Add to Cart 3 days [Need to translate] Methods for chemical analysis of lead antimony concentrates. Part 9: Determination of silver content. Flame atomic absorption spectrometric method Valid YS/T 1050.9-2015
Standards related to: YS/T 1050.9-2015

BASIC DATA
Standard ID YS/T 1050.9-2015 (YS/T 1050.9-2015)
Sector / Industry Nonferrous Metallurgy Industry Standard (Recommended)
Classification of Chinese Standard D42
Classification of International Standard 73.06
Word Count Estimation 5,597
Date of Issue 2015-04-30
Date of Implementation 2015-10-01
Drafting Organization Guangxi Zhuang Autonomous Region metallurgical products quality supervision and inspection; China Nonferrous Guilin Research Institute of Geology and Minerals Co. Ltd.; Liuzhou one hundred Ren special advanced materials Limited; Guangxi Zhuang Autonomous Region Analysis and Testing Center; Guilin University of Technology
Administrative Organization National Standardization Technical Committee for Nonferrous Metals
Regulation (derived from) Ministry of Industry and Information Technology Announcement (2015 No. 28)
Issuing agency(ies) Ministry of Industry and Information Technology of the People's Republic of China
Summary This Standard specifies the method for determination of lead-antimony concentrate silver content. This Standard applies to the determination of lead-antimony concentrate silver content. Measurement range (mass fraction) of 40.0 g /T ~ 1 000 g /T. Arbitration analysis, mass fraction of silver > 500 g /T, using fire assay (YS /T 1050.8-2015).


YS/T 1050.9-2015 (Lead-antimony concentrates - Part 9. Determination of silver content - Flame atomic absorption spectrometry) ICS 73.060 D42 People's Republic of China Nonferrous Metals Industry Standard Methods for chemical analysis of lead-antimony concentrate Part 9. Determination of silver content Flame Atomic Absorption Spectrometry Part 9. Determinationofsilvercontent- Issued on. 2015-04-30 2015-10-01 implementation Ministry of Industry and Information Technology of the People's Republic of China released Foreword YS/T 1050-2015 "Methods for chemical analysis of lead-antimony concentrate" is divided into the following nine sections. --- Part 1. Determination of lead content Na2EDTA titration; --- Part 2. Determination of antimony content cerium sulfate titration; --- Part 3. Determination of arsenic content potassium bromate titration; --- Part 4. Determination of zinc contents Na2EDTA titration; --- Part 5. Determination of sulfur content - Gravimetric method; --- Part 6. Determination of iron content cerium sulfate titration; --- Part 7. Determination of the amount of bismuth and copper - Flame atomic absorption spectrometry amount; --- Part 8. gold and silver content determination fire assay; --- Part 9. Determination of the amount of silver by flame atomic absorption spectrometry. Part is divided into 9 parts. This section drafted in accordance with GB/T 1.1-2009 given rules. The non-ferrous metal part by the National Standardization Technical Committee (SAC/TC243) centralized. This section is responsible for drafting unit. Guangxi Metallurgical Product Quality Supervision and Inspection Station. This section drafted by. China Nonferrous Guilin Research Institute of Geology and Minerals Co. Ltd.. Participated in the drafting of this section. Liuzhou one hundred tough special Advanced Materials Co., Ltd., Guangxi Zhuang Autonomous Region Analysis and Testing Center, Guilin Li M University. Drafters of this section. Xiongzhuan Xin, Lu Kai Yu, Chen Jin, the Fourier, Liu Yongqiang, Zhou Sulian, Huang Xusheng, Huangzhao Min, Chen Zhu Ping, Huang Diangui, Li Yi together, Lvmin Li. Methods for chemical analysis of lead-antimony concentrate Part 9. Determination of silver content Flame Atomic Absorption Spectrometry 1 Scope YS/T 1050 provisions of this part of the determination of lead, antimony ore of silver content. This section applies to the determination of lead-antimony concentrate silver content. Measurement range (mass fraction) of 40.0g/t ~ 1000g/t. Arbitration analysis, mass fraction of silver > 500g/t, using fire assay (YS/T 1050.8-2015). 2 Method summary Samples with hydrochloric acid, nitric acid and perchloric acid dissolved in hydrochloric acid medium, with air - acetylene flame atomic absorption spectrometer at a wavelength of 328.1nm Measuring the absorbance of silver, the standard curve method to calculate the amount of silver. 3 Reagents Unless otherwise indicated, this part of the reagents were analytical reagent, the water for the two water. 3.1 hydrochloric acid (ρ = 1.19g/mL). 3.2 nitric acid (ρ = 1.42g/mL). 3.3 perchloric acid (ρ = 1.76g/mL). 3.4 nitric acid (11). 3.5 mixed acid. the 3 volumes of hydrochloric acid (3.1) with 1 volume of nitric acid (3.2) and mix. 3.6 hydrochloric acid (595). 3.7 silver standard solution 3.7.1 Silver standard stock solution. Weigh 0.5000g metallic silver (mass fraction of silver ≥99.95%) placed in 250mL beaker, add 50mL Nitric acid (3.4), cover the surface of the pan, over low heat until completely dissolved, remove, cool. The brown solution was transferred to 500mL volumetric flask with water set Volume, mix. This solution containing silver per milliliter 1mg. 3.7.2 Silver standard solution. Pipette 10.00mL standard silver stock solution (3.7.1) in 100mL brown volumetric flask, was added 5mL of nitric acid (3.2) with water to volume, and mix. This solution containing silver per milliliter 100μg. 4 instruments and equipment Atomic absorption spectrometer, with a silver hollow-cathode lamp. Under optimum working conditions for those who can reach the following indicators can be used. --- Sensitivity. in the solution was measured and consistent substrate solution, wherein the concentration of silver is not more than 0.09μg/mL. --- Precision. standard solution with the highest concentration of 10 times the absorbance measurements, the standard deviation should not exceed the average absorbance of 1.0%; With the lowest concentration of standard solution (not "zero" concentration of the standard) measuring the absorbance of 10 times, the standard deviation should not exceed the maximum 0.5% concentration of the standard average absorbance. ......