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Standard Test Methods for Chemical, Mass Spectrometric, and Spectrochemical Analysis of Nuclear-Grade Boron Carbide
STANDARD published on 10.6.2000
Designation standards: ASTM C791-83(2000)
Note: WITHDRAWN
Publication date standards: 10.6.2000
SKU: NS-15085
The number of pages: 23
Approximate weight : 69 g (0.15 lbs)
Country: American technical standard
Category: Technical standards ASTM
Keywords:
Boron carbide (nuclear grade), powder/pellets- chemical/mass spectrometric/spectrochemical analysis,, test,, Carbon content-nuclear materials, Mass spectrometry, Spectrochemical analysis, Trace elements content-spectrochemical analysis, boron carbide, nuclear-grade, test,, Chloride content-nuclear applications, boron carbide (nuclear-grade), byconstant-current coulometry, test,, Fluoride content, boron carbide (nuclear-grade), by ion-selective electrode, test,, Isotopic analysis
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1.1 These test methods cover procedures for the chemical, mass spectrometric, and spectrochemical analysis of nuclear-grade boron carbide powder and pellets to determine compliance with specifications. 1.2 The analytical procedures appear in the following order:
1.3 This method covers the determination of total carbon in nuclear-grade, boron carbide in either powder or pellet form. 1.4 This method covers the determination of total boron in samples of boron carbide powder and pellets. The recommended amount of boron for each titration is 100 10 mg. 1.5 This method covers the determination of the isotopic composition of boron in nuclear-grade boron carbide, in powder and pellet form, containing natural to highly enriched boron. 1.6 This method covers the separation of up to 100 g of halides per gram of boron carbide. The separated halides are measured using other methods found in this standard. 1.7 This method covers the measurement of chloride after separation from boron carbide by pyrohydrolysis. The lower limit of the method is about 2 g of chloride per titration. 1.8 This method covers the measurement of fluoride after separation from boron carbide by pyrohydrolysis. The lower limit of the method is about 2 g of fluoride per measurement. 1.9 This method covers the determination of water in boron carbide in either powder or pellet form. The lower limit of the method is 5 g of water. 1.10 This method covers the determination of 14 impurity elements in boron carbide in either powder or pellet form. 1.11 This method covers the determination of soluble boron in boron carbide. Soluble boron is defined as that boron dissolved under the conditions of the test. 1.12 This method covers the determination of soluble carbon in boron carbide. The lower limit of the method is 0.02 % with a 100-mg sample. Soluble carbon is defined as that carbon oxidized by the sodium dichromate-sulfuric acid solution under the conditions of this method. 1.13 This method is applicable to the determination of metallic impurities in samples of boron carbide powder and pellets. From 20 to 5000 g of many of the impurities per gram of sample can be determined. |
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