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YS/T 1035-2015 related PDF English

YS/T 1035-2015 (YS/T1035-2015, YST 1035-2015, YST1035-2015) & related versions
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YS/T 1035-2015English149 Add to Cart 3 days Determination of carbon content in aluminum electrolyte - IR absorption spectrometry method YS/T 1035-2015 Valid YST 1035-2015



YS/T 1035-2015: PDF in English (YST 1035-2015)
YS/T 1035-2015 (Aluminum electrolytic carbon content of infrared absorption spectroscopy) ICS 71.100.10 H12 People's Republic of China Nonferrous Metals Industry Standard Determination of aluminum electrolyte carbon content Infrared absorption spectrometry Issued on. 2015-04-30 2015-10-01 implementation Ministry of Industry and Information Technology of the People's Republic of China released Foreword This standard was drafted in accordance with GB/T 1.1-2009 given rules. This standard by the national non-ferrous metals Standardization Technical Committee (SAC/TC243) and focal points. This standard is drafted by. Shandong Nanshan Aluminum Co., Ltd. Participated in the drafting of this standard. aluminum and magnesium in the County Kam Ning New Materials Co., Qingtongxia Aluminum Corporation. The main drafters of this standard. Cheng Ren policy, Liu Jianying, Cheng Jianguo, Liu Chuan, Wang Gang, Guo Hong, Cai Qing, Zhang Lingzhi. Determination of aluminum electrolyte carbon content Infrared absorption spectrometry 1 Scope This standard specifies the determination of the carbon content of aluminum electrolyte infrared absorption spectrometry. This standard applies to the determination of aluminum in the carbon content of the electrolyte. Measuring range. 0.02% to 2.00%. 2 Method summary This standard by adding a certain amount of flux in the sample, using high frequency induction heating a sample, the sample carbon oxygen OXYGEN Into carbon dioxide gas, the gas is absorbed into the treated cell, absorption of infrared radiation, the detector signal is forwarded by the computer Processing output. 3 Process Analysis 3.1 Reagents and configuration 3.1.1 Sodium fluoride (excellent pure). Before using placed under conditions of 300 ℃ drying 2h, placed in a desiccator to cool. 3.1.2 aluminum fluoride (excellent pure). Before using placed under conditions of 300 ℃ drying 2h, placed in a desiccator to cool. 3.1.3 alumina (excellent pure). Before using placed under conditions of 300 ℃ drying 2h, placed in a desiccator to cool. 3.1.4 magnesium fluoride (excellent pure). Before using placed under conditions of 300 ℃ drying 2h, placed in a desiccator to cool. 3.1.5 Calcium carbonate (reference reagents). Before using placed under conditions of 110 ℃ drying 2h, placed in a desiccator to cool. 3.1.6 pure iron flux. carbon content of less than 0.0005% (mass fraction), particle size < 1.25mm. 3.1.7 pure tungsten flux. carbon content of less than 0.0003% (mass fraction). 3.1.8 ethanol. AR. 3.1.9 carbon-free electrolyte formulation shown in Table 1. Table 1 Name of the reagent NaF AlF3 Al2O3 MgF2 Mass fraction /% 533 944 The above proportions formulated as aluminum electrolyte composition similar to carbon-free electrolyte, the prepared reagent mix into the zirconia ceramic crucible , Placed in 850 ℃ high temperature furnace temperature was raised to 980 ℃ 20min to burning molten. After cooling crushed ground, particle size of 75μm, again Mix placed in oven, 105 ℃ ~ 110 ℃ drying 4h, put the dryer set aside. 3.1.10 standard sample preparation. Weigh accurately carbon-free electrolyte (3.1.9), calcium carbonate is added (3.1.5), were formulated as carbon content 0.02%, 0.05%, 0.10%, 0.30%, 0.50%, 1.00%, 2.00% of the standard electrolyte sample, sample preparation should be stored in dry conditions. 3.1.11 porcelain crucible. High-frequency infrared carbon and sulfur analyzer dedicated low-carbon low-sulfur crucible before use with air or oxygen in a high temperature (1100 ℃) burning At least 2h, store in a desiccator. ......

BASIC DATA
Standard ID YS/T 1035-2015 (YS/T1035-2015)
Description (Translated English) Determination of carbon content in aluminum electrolyte. IR absorption spectrometry method
Sector / Industry Nonferrous Metallurgy Industry Standard (Recommended)
Classification of Chinese Standard H12
Classification of International Standard 71.100.10
Word Count Estimation 5,557
Date of Issue 2015-04-30
Date of Implementation 2015-10-01
Drafting Organization Shandong Nanshan Aluminum Co., Ltd; in the County of New Materials Co., Kam Ning aluminum and magnesium; Qingtongxia Aluminum Company Limited
Administrative Organization National Non-Ferrous Metals Standardization Technical Committee (SAC/TC 243)
Regulation (derived from) Ministry of Industry and Information Technology Announcement (2015 No. 28)
Proposing organization National Non-Ferrous Metals Standardization Technical Committee (SAC/TC 243)
Issuing agency(ies) Ministry of Industry and Information Technology of the People's Republic of China
Summary This Standard specifies the determination of the carbon content of aluminum electrolyte infrared absorption spectrometry. This Standard applies to the determination of aluminum in the carbon content of the electrolyte. Measuring range: 0.02% to 2.00%.