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YS/T 273.8-2020 PDF English (YS/T 273.8-2006: Older version)


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YS/T 273.8-2020English80 Add to Cart 0-9 seconds. Auto-delivery. Methods for chemical analysis and physical properties test of cryolite - Part 8: Determination of sulphate content - Barium sulphate gravimetric method Valid
YS/T 273.8-2006English239 Add to Cart 3 days Chemical analysis methods and physical properties of cryolite. Part 8: Determination of sulphate content by barium sulphate gravimetric method Obsolete


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YS/T 273.8-2020: PDF in English (YST 273.8-2020)

YS/T 273.8-2020 YS NON-FERROUS METAL INDUSTRY STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA ICS 71.100.10 H 30 Replacing YS/T 273.8-2006 Methods for Chemical Analysis and Physical Properties Test of Cryolite – Part 8: Determination of Sulphate Content – Barium Sulphate Gravimetric Method ISSUED ON: DECEMBER 09, 2020 IMPLEMENTED ON: APRIL 1, 2021 Issued by: Ministry of Industry and Information Technology of the People’s Republic of China Table of Contents Foreword ... 3 1 Scope ... 5 2 Method Summary ... 5 3 Reagent ... 5 4 Apparatus ... 6 5 Specimen ... 6 6 Test Procedures ... 6 7 Calculation of Test Results ... 7 8 Precision ... 8 9 Quality Assurance and Control ... 8 10 Test Report ... 8 Methods for Chemical Analysis and Physical Properties Test of Cryolite – Part 8: Determination of Sulphate Content – Barium Sulphate Gravimetric Method 1 Scope This Part specifies the method for determination of sulfate content in cryolite. This Part applies to the determination of sulfate content in cryolite. Determination range: 0.10%~1.50%. 2 Method Summary The test material is melted by a mixed flux of sodium carbonate and boric acid; and the melt is dissolved by perchloric acid. In the acidic medium, barium chloride is used to precipitate sulfate ions. The precipitated barium sulfate is burned at 850°C and weighed. Calculate sulfate content. 3 Reagent Unless otherwise stated, only reagents and deionized water determined to be of analytically pure were used in the analysis. 3.1 Anhydrous sodium carbonate. 3.2 Boric acid. 3.3 Perchloric acid (ρ≈1.67 g/mL). 3.4 Sulfuric acid (ρ=1.84 g/mL). 3.5 Hydrochloric acid (1+1). 3.6 Barium chloride solution: Weigh 61g of barium chloride dihydrate, dissolve it in water and dilute it to 1L. 3.7 Silver nitrate-nitric acid solution: Weigh 0.5 g of silver nitrate and dissolve it in a small amount of water; add 10 mL of nitric acid (ρ = 1. 40 g/mL), dilute with water to 100 mL, and mix well. 4 Apparatus 4.1 Platinum dish: flat bottom, diameter 75 mm, height 30 mm, with platinum cover. 4.2 Platinum crucible: diameter 30 mm, height 30 mm. 4.3 Oven: The temperature can be controlled at 110°C±5°C. 4.4 High temperature furnace: The temperature can be controlled at 825°C±20°C and 850°C ±20°C. 5 Specimen The sample was ground and mixed, passed through a 75μm standard sieve; baked in an oven at 110°C ± 5°C for 2 h; and cooled to room temperature in a desiccator. 6 Test Procedures 6.1 Test material Weigh 1.0 g of specimen (5), accurate to 0.0001g. 6.2 Parallel test Do two experiments in parallel and take the average. 6.3 Blank test Do a blank test along with the test material. 6.4 Determination 6.4.1 Weigh 3.75 g of anhydrous sodium carbonate (3.1) and 1.25 g of boric acid (3.2); place them in a platinum dish (4.1); add the test material (6.1); mix evenly with a platinum spoon; and cover the dish. Put it into the high-temperature furnace (4.4); and use a bracket to separate the platinum dish from the bottom of the furnace. Melt in a high temperature furnace at 825°C±20°C for 30 min; take out the platinum dish and cool to room temperature. 6.4.2 Place the platinum dish (with lid) containing the test material into a 500 mL beaker; add 25 mL of perchloric acid (3.3) and 15 mL of water. Heat until the molten material in the dish is completely dissolved; and use water to wash the residue on the platinum dish and lid into the beaker. 6.4.3 Heat the beaker at low temperature on the heating plate. The beaker is covered with a watch glass (the watch glass is inserted obliquely into the beaker and fixed with a glass rod) to evaporate the solution until it is almost dry and then cool. 6.4.4 Add 10 mL of hydrochloric acid (3.5); wash the wall of the beaker with hot water and stir thoroughly to completely dissolve the precipitate; then add hot water until the solution volume is about 300mL. Heat the solution to a slight boiling; slowly add 30 mL of boiling barium chloride solution (3.6) while stirring; and boil for 5 min. Cover the beaker with a watch glass and let it stand at room temperature for 16 h. 6.4.5 Use slow quantitative filter paper to filter the solution; first transfer the precipitate to the filter paper using the pouring method; and then wash the precipitate repeatedly with hot water until the filtrate does not contain chloride ions (check with silver nitrate solution to see that no white precipitate is produced). 6.4.6 Place the filter paper and precipitate in a platinum crucible (4.2) with a constant weight in advance; dry it in an oven (4.3) at 110°C ± 5°C for 1 h; and then move it to a high-temperature furnace (4.4). Ash the filter paper at low temperature first; then raise the temperature to 850°C ± 20°C and burn for 30 min. Take out the platinum crucible and place it in a desiccator to cool to room temperature. If the precipitate is white after burning; weigh it. If the precipitate is gray, add a few drops of sulfuric acid (3.4) to moisten it; and then place it in a high-temperature furnace (4.4) at 850°C ± 20°C to burn for about 15 min. Take it out and place it in a desiccator to cool to room temperature; and repeat the burning, until the precipitate turns white and weigh. 7 Calculation of Test Results The sulfate content is calculated based on the mass fraction of sulfate wSO 2- 4 , calculated according to Formula (1): Where: m4 - the weight of barium sulfate and crucible when measuring the test material, in g; m3 – the weight of empty crucible when measuring the test materials, in g; m2 – the weight of barium sulfate and crucible when taking blank test, in g; m1 – the weight of empty crucible when taking blank test, in g; 0.4116 - the coefficient for converting barium sulfate into sulfate; m0 – mass of test material, in g. ......
 
Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.