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GB/T 4702.16-2025: Chromium metal - Determination of sulfur content - Infrared absorption method and combustion-neutralization titration method
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Std ID	Version	USD	Buy	Deliver [PDF] in	Title (Description)
GB/T 4702.16-2025	English	359	Add to Cart	4 days [Need to translate]	Chromium metal - Determination of sulfur content - Infrared absorption method and combustion-neutralization titration method
GB/T 4702.16-2008	English	229	Add to Cart	3 days [Need to translate]	Chromium metal -- Determination of sulfur content -- Infrared absorption method and combustion-neutralization titration method
GB/T 4702.16-1988	English	199	Add to Cart	2 days [Need to translate]	Methods for chemical analysis of chromium metal--The infrared absorption method for the determination of sulfur content

GB/T 4702.16-2025: Chromium metal - Determination of sulfur content - Infrared absorption method and combustion-neutralization titration method

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ICS 77.100 CCSH11 National Standards of the People's Republic of China Replaces GB/T 4702.16-2008 Determination of Chromium-Sulfur Content in Metals Infrared absorption method and combustion neutralization titration method Published on 2025-08-29 Implemented on 2026-03-01 State Administration for Market Regulation The State Administration for Standardization issued a statement.

Foreword

This document complies with the provisions of GB/T 1.1-2020 "Standardization Work Guidelines Part 1.Structure and Drafting Rules of Standardization Documents". Drafting. This document is Part 16 of GB/T 4702.GB/T 4702 has the following parts published. ---Determination of Chromium Content by Ferrous Ammonium Sulfate Titration Method (GB/T 4702.1); ---Determination of Chromium and Silicon Content by Perchloric Acid Gravimetric Method (GB/T 4702.2); ---Determination of Chromium and Phosphorus Content. Bismuth-phosphorus-molybdenum blue spectrophotometric method (GB/T 4702.3); ---Determination of chromium and ferrochrome content by disodium ethylenediaminetetraacetate titration and flame atomic absorption spectrometry (GB/T 4702.4); ---Determination of Chromium and Aluminum Content by Disodium Ethylenediaminetetraacetate Titration and Flame Atomic Absorption Spectrometry (GB/T 4702.5); ---Determination of the content of metallic chromium, ferrochrome, aluminum, silicon and copper by inductively coupled plasma atomic emission spectrometry (GB/T 4702.6); ---Determination of Chromium and Nitrogen Content by Distillation Separation - Nessler Reagent Spectrophotometry (GB/T 4702.7); ---Chemical Analysis Methods for Chromium Metals. Determination of Arsenic Content by Distillation-Molybdenum Blue Spectrophotometry (GB/T 4702.8); ---Chemical Analysis Methods for Chromium Metals. Determination of Antimony Content by Crystal Violet Spectrophotometry (GB/T 4702.9); ---Chemical Analysis Methods for Chromium Metals. Determination of Copper Content by Copper Reagent Spectrophotometry (GB/T 4702.10); ---Chemical Analysis Methods for Tin Content Determination by Alizarin Violet Spectrophotometry (GB/T 4702.11) ---Chemical analysis method for chromium metal. Determination of carbon content by infrared absorption method (GB/T 4702.14); ---Determination of the content of metallic chromium, lead, tin, bismuth, antimony and arsenic by inductively coupled plasma mass spectrometry (GB/T 4702.15); ---Determination of Chromium-Sulfur Content by Infrared Absorption Method and Combustion Neutralization Titration Method (GB/T 4702.16); ---Determination of the content of chromium, oxygen, nitrogen, and hydrogen in metallic chromium using inert gas melting infrared absorption and thermal conductivity methods (GB/T 4702.17); ---Determination of Chromium and Vanadium Content by Tantalum Reagent Chloroform Extraction Spectrophotometric Method (GB/T 4702.18). This document replaces GB/T 4702.16-2008 "Determination of Chromium and Sulfur Content in Metals by Infrared Absorption Method and Combustion Neutralization Titration Method". Compared with GB/T 4702.16-2008, apart from structural adjustments and editorial changes, the main technical changes are as follows. a) The measurement range of infrared absorption spectrometry has been changed (see Chapter 1, Chapter 1 of the.2008 edition); b) A tungsten-tin flux was added (see 4.2.6); c) The description of instrument stability requirements has been revised (see 4.3.1, 3.3.1 in the.2008 version); d) The sample particle size was changed (see 4.4, 3.4 in the.2008 edition); e) The number of measurements was increased (see 4.5.1); f) The sample quantity has been changed (see 4.5.2, 3.5.1 in the.2008 version); g) Added requirements for measuring sulfur content less than 0.001% in the blank test (see 4.5.3); h) The description of the analysis preparation steps has been changed (see 4.5.4.4, 3.5.3.4 in the.2008 version); i) Added calibration test content (see 4.5.5); j) The amount of flux added has been changed (see 4.5.6, 3.5.5 in the.2008 version); k) The representation of the analysis results has been added (see 4.6); l) The precision has been changed (see 4.7, 3.6 in the.2008 edition); m) Increased the number of determinations in the combustion neutralization titration method (see 5.5.1); n) A normative appendix, “Flowchart of the Test Analysis Result Acceptance Procedure”, has been added (see Appendix A). Please note that some content in this document may involve patents. The issuing organization of this document assumes no responsibility for identifying patents. This document was proposed by the China Iron and Steel Association. This document is under the jurisdiction of the National Technical Committee on Standardization of Pig Iron and Ferroalloys (SAC/TC318). This document was drafted by. CITIC (Liaoning) New Material Technology Co., Ltd., Ximai Scientific Instruments (Wuxi) Co., Ltd., and Qingdao Bozheng. Inspection Technology Co., Ltd., Fangtongzhou Holdings Co., Ltd., China Certification & Inspection Group Hebei Co., Ltd., Ordos Xijin Mining & Metallurgy Co., Ltd. Limited Liability Company, Inner Mongolia Xintaiyuan New Materials Co., Ltd., Jilin Iron & Steel Ferroalloy Co., Ltd., Hebei Jinxi Steel Group Co., Ltd. Metallurgical Industry Information and Standards Research Institute. The main drafters of this document are. Li Jie, Lü Xuemei, Zhang Yuchi, Wu Lei, Liu Fei, Li Yaguang, Long Yuhai, Sun Xiaofei, Wu Zhifeng, and Xu Wengao. Zhou Ruidong, Zhang Li, Liu Kun, Zhao Lixin, Yang Zhigang, Wang Chao, Li Jinglin, Zheng Haidong, Wang Liang, Xu Zhibin, Ma Ning, Sun Fengxiao, Han Xuesong, Meng Liangliang Zhang Simei, Liu Fei, Yang Yue, Wang Xuan, Lu Xuefei, Zhang Jijun, Zhu Jianan, Wang Hao, Fan Yu, Lu Chunsheng. This document was first published in 1988, revised for the first time in.2008, and this is the second revision.

introduction

Because the detection of chromium metal involves many elements, and the applicable scope and methods for each element differ, in order to ensure... The convenience and accuracy of chromium metal testing standards are evident in our analytical methods for different elements within chromium, which have established national standards to support chromium metal testing. The national standard system. GB/T 4702, the series of analytical methods for metallic chromium, is the basic standard for the detection of metallic chromium in my country, consisting of 16 parts. However... Some parts have been discontinued, so please be careful when using them. ---Determination of Chromium Content in Metallic Chromium. Ferrous Ammonium Sulfate Titration Method (GB/T 4702.1). The purpose is to determine the chromium content in metallic chromium. The amount was determined by titration with ferrous ammonium sulfate. ---Determination of Silicon Content in Metallic Chromium using the Perchloric Acid Gravimetric Method (GB/T 4702.2). The purpose is to determine the silicon content in metallic chromium. The amount was determined by the perchloric acid gravimetric method. ---Determination of Phosphorus Content in Metallic Chromium. Bismuth-phosphorus-molybdenum blue spectrophotometric method (GB/T 4702.3). The purpose is to measure phosphorus content in metallic chromium. The content was determined using the bismuth phosphomolybdenum blue spectrophotometric method. ---Determination of chromium and iron content by disodium ethylenediaminetetraacetate titration and flame atomic absorption spectrometry (GB/T 4702.4). The purpose was to measure the iron content in metallic chromium using disodium ethylenediaminetetraacetate titration and flame atomic absorption spectrometry. ---Determination of Chromium and Aluminum Content by Disodium Ethylenediaminetetraacetate Titration and Flame Atomic Absorption Spectrometry (GB/T 4702.5). The purpose was to measure the aluminum content in metallic chromium using disodium ethylenediaminetetraacetate titration and flame atomic absorption spectrometry. ---Determination of the content of metallic chromium, ferrochrome, aluminum, silicon and copper by inductively coupled plasma atomic emission spectrometry (GB/T 4702.6). The key is to measure the iron, aluminum, silicon and copper content in metallic chromium using inductively coupled plasma atomic emission spectrometry. ---Determination of Chromium and Nitrogen Content by Distillation Separation - Nessler Reagent Spectrophotometry (GB/T 4702.7). The purpose is to measure the chromium and nitrogen content of metallic chromium. The nitrogen content in chromium was determined by distillation separation-Nessler reagent spectrophotometry. ---Chemical Analysis Method for Chromium Metal. Determination of Arsenic Content by Distillation-Molybdenum Blue Spectrophotometry (GB/T 4702.8). The purpose is to measure chromium metal. The arsenic content was determined using the distillation-molybdenum blue spectrophotometric method. ---Chemical Analysis Methods for Chromium Metal. Determination of Antimony Content by Crystal Violet Spectrophotometry (GB/T 4702.9). The purpose is to measure the antimony content in metallic chromium. The antimony content was determined using crystal violet spectrophotometry. ---Chemical Analysis Methods for Metallic Chromium. Determination of Copper Content by Copper Reagent Spectrophotometry (GB/T 4702.10). The purpose is to measure metallic chromium. The copper content was determined using the copper reagent spectrophotometric method. ---Determination of Tin Content by Alizarin Violet Spectrophotometry (GB/T 4702.11) using Chemical Analysis Methods for Metallic Chromium. The purpose is to measure metallic chromium. The tin content was determined using alizarin violet spectrophotometry. ---Infrared Absorption Spectroscopy for the Determination of Carbon Content in Metallic Chromium (GB/T 4702.14). The purpose is to measure the carbon content in metallic chromium. Carbon content was determined using infrared absorption. ---Determination of Chromium, Lead, Tin, Bismuth, Antimony, and Arsenic Content by Inductively Coupled Plasma Mass Spectrometry (GB/T 4702.15). The purpose is to measure the content of chromium, lead, tin, bismuth, antimony, and arsenic. The content of lead, tin, bismuth, antimony, and arsenic in chromium was determined by inductively coupled plasma mass spectrometry. ---Determination of Chromium-Sulfur Content in Metallic Materials. Infrared Absorption Method and Combustion Neutralization Titration Method (GB/T 4702.16). The purpose is to measure... The sulfur content in metallic chromium was determined using infrared absorption and combustion neutralization titration methods. ---Determination of the oxygen, nitrogen, and hydrogen content of metallic chromium using inert gas melting infrared absorption and thermal conductivity methods (GB/T 4702.17). Objective The method involves measuring the oxygen, nitrogen, and hydrogen content in metallic chromium using inert gas melting infrared absorption and thermal conductivity methods. ---Determination of Chromium and Vanadium Content by Tantalum Reagent Chloroform Extraction Spectrophotometry (GB/T 4702.18). The purpose is to measure... The vanadium content in metallic chromium was determined using the tantalum reagent chloroform extraction spectrophotometric method. Determination of Chromium-Sulfur Content in Metals Infrared absorption method and combustion neutralization titration method Warning---Personnel using this document should have formal laboratory work experience. This document does not address all possible safety issues. Users are responsible for taking appropriate safety and health measures and ensuring compliance with relevant national regulations. 1.Scope This document describes methods for determining the sulfur content in metallic chromium using infrared absorption and combustion neutralization titration. This document applies to the determination of sulfur content in metallic chromium. The infrared absorption method is used for determination within a range (mass fraction) of 0.0005%~ 0.045%; Determination range (mass fraction) by combustion neutralization titration. 0.005%~0.070%.

2 Normative references

The contents of the following documents, through normative references within the text, constitute essential provisions of this document. Dated citations are not included. For references to documents, only the version corresponding to that date applies to this document; for undated references, the latest version (including all amendments) applies. This document. GB/T 4010 Sample collection and preparation for chemical analysis of ferroalloys GB/T 6379.1 Accuracy (correctness and precision) of measurement methods and results - Part 1.General principles and definitions GB/T 6379.2 Accuracy (correctness and precision) of measurement methods and results - Part 2.Determining the repeatability of standard measurement methods Basic methods of sex and representation GB/T 6379.3 Accuracy (Correctness and Precision) of Measurement Methods and Results - Part 3.Precision of Standard Measurement Methods intermediate metrics GB/T 6682 Specifications and test methods for water used in analytical laboratories GB/T 8170 Rules for rounding off numerical values and the representation and determination of limiting values 3.Terms and Definitions This document does not contain any terms or definitions that need to be defined. 4.Method 1.Infrared Absorption Method 4.1 Principle The sample was heated and burned in an oxygen stream in a high-frequency induction furnace. The generated sulfur dioxide was carried by the oxygen to the measuring chamber of an infrared analyzer. Sulfur dioxide absorbs infrared energy at a specific wavelength, and the absorbed energy is directly proportional to the concentration of sulfur dioxide. The concentration can be measured by observing the change in energy received by the detector. Sulfur content. 4.2 Reagents and Materials 4.2.1 Magnesium perchlorate, anhydrous, granular. ...