GB/T 15076.2-2019 English PDF

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GB/T 15076.2-2019: Methods for chemical analysis of tantalum and niobium -- Part 2: Determination of niobium content in tantalum -- Inductively coupled plasma atomic emission spectrometry and stratigraphy gravimetry
Status: Valid

GB/T 15076.2: Historical versions

Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 15076.2-2019	179	Add to Cart	3 days	Methods for chemical analysis of tantalum and niobium -- Part 2: Determination of niobium content in tantalum -- Inductively coupled plasma atomic emission spectrometry and stratigraphy gravimetry	Valid
GB/T 15076.2-1994	239	Add to Cart	3 days	Methods for chemical analysis of tantalum and niobium. Determination of niobium content in tantalum	Obsolete

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Basic data

Standard ID: GB/T 15076.2-2019 (GB/T15076.2-2019)
Description (Translated English): Methods for chemical analysis of tantalum and niobium -- Part 2: Determination of niobium content in tantalum -- Inductively coupled plasma atomic emission spectrometry and stratigraphy gravimetry
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: H14
Classification of International Standard: 77.120.99
Word Count Estimation: 9,937
Date of Issue: 2019-12-31
Date of Implementation: 2020-11-01
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 15076.2-2019: Methods for chemical analysis of tantalum and niobium -- Part 2: Determination of niobium content in tantalum -- Inductively coupled plasma atomic emission spectrometry and stratigraphy gravimetry

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Methods for chemical analysis of tantalum and niobium-Part 2. Determination of niobium content in tantalum-Inductively coupled plasma atomic emission spectrometry and stratography gravimetry ICS 77.120.99 H14 National Standards of People's Republic of China Replaces GB/T 15076.2-1994 Chemical analysis of tantalum and niobium Part 2. Determination of niobium in tantalum Inductively coupled plasma atomic emission spectrometry and Chromatographic separation gravimetric method 2019-12-31 release 2020-11-01 implementation State Administration of Market Supervision Published by the National Standardization Administration

Foreword

GB/T 15076 "Chemical Analysis Methods for Tantalum and Niobium" is divided into 16 parts. --- Part 1. Determination of tantalum in niobium by inductively coupled plasma atomic emission spectrometry; --- Part 2. Determination of the amount of niobium in tantalum by inductively coupled plasma atomic emission spectrometry and chromatogravimetry; --- Part 3. Determination of copper content by flame atomic absorption spectrometry; --- Part 4. Determination of iron content 1,10-diazaphenanthrene spectrophotometry; --- Part 5. Determination of the amount of molybdenum and tungsten; inductively coupled plasma atomic emission spectrometry; --- Part 6. Determination of silicon content by inductively coupled plasma atomic emission spectrometry; --- Part 7. Determination of phosphorus content in niobium 4-methyl-pentanone- [2] Extraction and separation of phosphorus molybdenum blue spectrophotometry and inductively coupled plasma Bulk atomic emission spectroscopy; --- Part 8. Determination of carbon and sulfur content High-frequency combustion infrared absorption method; --- Part 9. Determination of iron, chromium, nickel, manganese, titanium, aluminum, copper, tin, lead and zirconium in tantalum by DC arc atomic emission spectrometry; --- Part 10. Determination of iron, nickel, chromium, titanium, zirconium, aluminum and manganese in niobium by DC arc atomic emission spectrometry; --- Part 11. Determination of arsenic, antimony, lead, tin and bismuth in niobium by DC arc atomic emission spectrometry; --- Part 12. Determination of phosphorus content in tantalum Phosphomolybdenum blue spectrophotometric method for extraction and separation of ethyl acetate; --- Part 13. Determination of nitrogen content; inert gas fusion thermal conductivity method; --- Part 14. Determination of oxygen content Inert gas fusion infrared absorption method; --- Part 15. Determination of hydrogen content; inert gas fusion thermal conductivity method; --- Part 16. Determination of sodium and potassium content by flame atomic absorption spectrometry. This part is the second part of GB/T 15076. This section is drafted in accordance with the rules given in GB/T 1.1-2009. This section replaces GB/T 15076.2-1994 "Methods for chemical analysis of tantalum and niobium. Determination of niobium in tantalum" This section is in accordance with GB/T 15076.2- Compared with.1994, the main technical changes in addition to editorial changes are as follows. --- Changed the measurement method from "Method 1 Extraction, Chromatography-DSPCF Spectrophotometry" to "Method 1 Inductive Coupling Plasma Atomic Emission Spectroscopy "(see Chapter 3, Chapter 1 of the.1994 edition); --- Expanded the measurement range, the measurement range of Method 1 was changed from "0.0010% ~ 1.50%" to "0.0010% ~ 2.00%"; method The measurement range of the second was changed from " > 1.50% ~ 6.00%" to " > 2.00% ~ 20.00%" (see Chapter 1, Chapter 1 of the.1994 edition) And chapter 9); --- Removed the reference standard (see Chapter 2 and Chapter 10 of the.1994 edition); --- Added sample clauses (see Chapter 2); --- Added precision clauses (see 3.6 and 4.6); --- Modify the amount of hydrofluoric acid and nitric acid in the method 2 developing agent from "8mL and 4mL" to "6mL and 6mL" (see 4.2.8, 12.4 of the.1994 edition); --- Change the amount of sample in Method 2 from "0.1g" to "0.10g and 0.05g" according to different mass fractions (see 4.4.1,.1994 version 14.2); --- Added test report clauses (see Chapter 5). This section is proposed by China Nonferrous Metals Industry Association. This section is under the jurisdiction of the National Nonferrous Metals Standardization Technical Committee (SAC/TC243). This section was drafted by. Ningxia Dongfang Tantalum Co., Ltd., Guangdong Guangsheng Rare Metal Optoelectronic New Material Co., Ltd., Northwest Rare Metal Materials Research Institute Ningxia Co., Ltd., Xi'an Hantang Analysis and Testing Co., Ltd., Jiujiang Nonferrous Metal Smelting Co., Ltd., Guangdong Industry Analysis and Testing Center. The main drafters of this section. Zhang Junfeng, Huang Shuang, Yu Hongyan, Chen Hong, Yang Junhong, Xuan Hongjian, Liu Baili, Zhang Tianyi, Hao Wenting, and Wu Zhuokui. The previous versions of the standards replaced by this section are. --- GB/T 15076.2-1994. Chemical analysis of tantalum and niobium Part 2. Determination of niobium in tantalum Inductively coupled plasma atomic emission spectrometry and Chromatographic separation gravimetric method

1 Scope

This part of GB/T 15076 specifies the determination of niobium in tantalum by inductively coupled plasma atomic emission spectrometry and chromatogravimetry. content. This section applies to the determination of niobium in tantalum and tantalum hydroxide, tantalum oxide, tantalum carbide, and potassium fluotantalate. Method one inductively coupled plasma The measurement range of bulk atomic emission spectrometry. 0.0010% ~ 2.00%; Method. The range of two-layer separation gravimetric method. > 2.00% ~ 20.00%.

2 samples

2.1 The particle size of tantalum powder is less than 700 μm; the particle size of tantalum carbide is less than 150 μm. 2.2 Tantalum powder should be vacuum dried in advance at 80 ℃ ~ 150 ℃ for 4h, cooled to room temperature, and vacuum packed with composite aluminum foil bag; tantalum hydroxide and oxygen Tantalum and potassium fluorotantalate should be dried in advance at 105 ℃ ~ 110 ℃ for 2h, placed in a desiccator and cooled to room temperature, and then used. 2.3 The tantalum ingot is sampled from the top 10cm to the middle of the ingot after removing the skin with a planer, and the size of the debris is uniform. Uniform, and the particles should be as small as possible. 3 Method 1-Inductively coupled plasma atomic emission spectrometry 3.1 Principle The sample was dissolved with nitric acid and hydrofluoric acid. In a dilute acid medium, argon plasma was used as the ionization source to directly conduct inductively coupled plasma. Atomic emission spectrometry. 3.2 Reagents and materials Unless otherwise stated, only reagents and laboratory secondary water identified as analytically pure were used in the analysis. 3.2.1 Hydrofluoric acid (ρ = 1.14g/mL). 3.2.2 Nitric acid (ρ = 1.42g/mL). 3.2.3 Metal tantalum (wTa≥99.99%, wNb≤0.0001%). 3.2.4 Niobium standard storage solution. Weigh 1.000g of metal niobium (wNb≥99.99%) into a 250mL polytetrafluoroethylene beaker, add 10mL hydrofluoric acid (3.2.1), add 10mL nitric acid (3.2.2) dropwise, slowly heat to dissolve until clear, cool to room temperature, transfer to 1000mL In a volumetric flask, dilute to the mark with water and mix well. 1 mL of this solution contains 1 mg of niobium. Store in polyethylene volumetric flasks. 3.2.5 Niobium standard solution. Transfer 10.00mL of niobium standard storage solution (3.2.4) into a 100mL volumetric flask, and add 2mL of hydrofluoric acid (3.2.1), dilute to the mark with water and mix well. 1 mL of this solution contained 100 μg of niobium. Store in polyethylene volumetric flasks. 3.2.6 Argon (volume fraction is not less than 99.99%). 3.3 Equipment 3.3.1 Inductively coupled plasma atomic emission spectrometer with hydrofluoric acid resistant sampling system, resolution < 0.006nm (at.200nm). ......

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