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ASTM C1022-05(2010)e1
Standard Test Methods for Chemical and Atomic Absorption Analysis of Uranium-Ore Concentrate
17 стр.
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Разработчик:
Зарубежные/ASTM
ICS:
27.120.30 Fissile. Including raw materials / Делящиеся ядерные вещества. Включая сырье
Сборник (ASTM):
12.01 Nuclear Energy (I) / Ядерная энергия (I)
Тематика:
Nuclear Technology
Описание
Значение и использование

The test methods in this standard are designed to show whether a given material meets the specifications prescribed in Specification C967.

Because of the variability of matrices of uranium-ore concentrate and the lack of suitable reference or calibration materials, the precision and bias of these test methods should be established by each individual laboratory that will use them. The precision and bias statements given for each test method are those reported by various laboratories and can be used as a guideline.

Instrumental test methods such as X-ray fluorescence and emission spectroscopy can be used for the determination of some impurities where such equipment is available.

Область применения

1.1 These test methods cover procedures for the chemical and atomic absorption analysis of uranium-ore concentrates to determine compliance with the requirements prescribed in Specification C967.

Ключевые слова:
concentrates; uranium ore; Sodium--nuclear applications; Spectrophotometry--atomic absorption; Spectroscopy--emission; Spectroscopy--X-ray fluorescence (XRF); Sulfur--nuclear materials; Thorium content; Titanium content; Uranium content; Uranium ore; Vanadium content; Volhard titration; XRF (X-ray fluorescence)--nuclear materials; Arsenic content--nuclear materials/applications; Boron content--nuclear-grade materials; Calcium content; Carbon content--nuclear materials; Diethyldithiocarbamate (photometric) method; Carbon dioxide gravimetry; Extractable matter content; Ferrous sulfate reduction; Fluoride content; Halide (ion) content; Ion selective electrode method; Iron content; Magnesium content--nuclear materials; Molybdenum content--uranium oxide; Nitric acid-insoluble uranium; Phosphorus content; Potassium content; Potassium dichromate titrimetry; Silicon content