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ASTM C1637-13
Standard Test Method for the Determination of Impurities in Plutonium Metal: Acid Digestion and Inductively Coupled Plasma-Mass Spectroscopy (ICP-MS) Analysis
Automaticky preložený názov:
Štandardná skúšobná metóda pre stanovenie nečistôt v kovového plutónia: mokrú a indukčne viazanej plazma-Mass spektroskopia (ICP-MS) Analýza
NORMA vydaná dňa 1.1.2013
Informácie o norme:
Označenie normy: ASTM C1637-13
Poznámka: NEPLATNÁ
Dátum vydania normy: 1.1.2013
Kód tovaru: NS-12090
Počet strán: 5
Približná hmotnosť: 15 g (0.03 libier)
Krajina: Americká technická norma
Kategória: Technické normy ASTM
Kategórie - podobné normy:
Anotácia textu normy ASTM C1637-13 :
Keywords:
Dissolution, Inductively Coupled Plasma-Mass Spectroscopy (ICP-MS), impurities in plutonium, plutonium., ICS Number Code 71.060.10 (Chemical elements)
Doplňujúce informácie
| Significance and Use | |||
|
4.1 This test method may be run together with Test Method C1432 to analyze for trace impurities in Pu metal. Using the technique described in this test method and the technique described in Test Method C1432 will provide the analyst with a more thorough verification of the impurity concentrations contained in the Pu metal sample. In addition, Test Method C1432 can be used to determine impurity concentrations for analytes such as Ca, Fe, Na, and Si, which have not been determined using this test method. 4.2 This test method can be used on Pu matrices in nitrate solutions. 4.3 This test method has been validated for use on materials that meet the specifications described in Specification C757 and Test Methods C758 and C759. 4.4 This test method has been validated for all elements listed in Element |
N |
Mean R, % |
RSD, % |
|
Lithium |
22 |
93.65 |
7.26 |
|
Beryllium |
22 |
96.46 |
8.14 |
|
Boron |
22 |
98.48 |
6.97 |
|
Magnesium |
22 |
98.30 |
7.58 |
|
Aluminium |
22 |
99.66 |
8.62 |
|
Phosphorus |
22 |
99.43 |
8.96 |
|
Titanium |
22 |
99.25 |
2.44 |
|
Vanadium |
22 |
94.44 |
7.38 |
|
Chromium |
22 |
97.29 |
3.90 |
|
Manganese |
22 |
95.48 |
3.46 |
|
Cobalt |
22 |
95.92 |
4.35 |
|
Nickel |
22 |
96.78 |
3.98 |
|
Zinc |
22 |
94.24 |
4.12 |
|
Copper |
22 |
96.66 |
3.70 |
|
Germanium |
22 |
98.16 |
4.54 |
|
Arsenic |
22 |
101.38 |
8.67 |
|
Selenium |
22 |
101.15 |
8.00 |
|
Rubidium |
22 |
100.24 |
5.36 |
|
Strontium |
22 |
98.89 |
4.16 |
|
Yttrium |
22 |
98.07 |
3.81 |
|
Zirconium |
22 |
98.10 |
3.41 |
|
Niobium |
22 |
96.92 |
3.65 |
|
Molybdenum |
22 |
97.82 |
3.81 |
|
MolybdenumA |
21 |
98.36 |
2.90 |
|
Ruthenium |
22 |
98.32 |
2.14 |
|
Palladium |
22 |
97.69 |
2.49 |
|
Silver |
22 |
105.14 |
7.88 |
|
SilverA |
21 |
106.56 |
4.26 |
|
Cadmium |
22 |
96.03 |
3.72 |
|
Indium |
22 |
98.01 |
3.57 |
|
Tin |
22 |
97.25 |
3.94 |
|
Antimony |
22 |
95.05 |
6.21 |
|
Tellurium |
22 |
100.10 |
6.86 |
|
Caesium |
22 |
101.81 |
6.93 |
|
Barium |
22 |
97.99 |
3.68 |
|
Lanthanum |
22 |
98.31 |
3.84 |
|
Cerium |
22 |
97.57 |
3.72 |
|
Praeseodymium |
22 |
97.32 |
3.00 |
|
Neodymium |
22 |
97.22 |
3.56 |
|
Samarium |
22 |
98.39 |
3.34 |
|
Europium |
22 |
97.43 |
3.02 |
|
Gadolinium |
22 |
100.04 |
2.78 |
|
Terbium |
22 |
97.62 |
2.72 |
|
Dysprosium |
22 |
98.18 |
2.20 |
|
Holmium |
22 |
98.61 |
2.21 |
|
Erbium |
22 |
98.05 |
2.29 |
|
Ytterbium |
22 |
99.59 |
2.43 |
|
Lutetium |
22 |
97.06 |
5.00 |
|
LutetiumA |
21 |
97.79 |
3.72 |
|
Hafnium |
22 |
100.32 |
3.95 |
|
Tantalum |
22 |
93.42 |
3.21 |
|
TantalumA |
21 |
93.89 |
2.43 |
|
Tungsten |
22 |
96.29 |
3.54 |
|
Rhenium |
22 |
99.75 |
3.28 |
|
Iridium |
22 |
99.88 |
3.70 |
|
Platinum |
22 |
100.57 |
3.93 |
|
Gold |
22 |
101.20 |
5.35 |
|
GoldA |
21 |
100.41 |
3.96 |
|
Thallium |
22 |
100.09 |
5.02 |
|
Lead |
22 |
101.58 |
5.54 |
|
Bismuth |
22 |
100.70 |
5.43 |
|
Thorium |
22 |
103.30 |
6.89 |
|
Uranium |
22 |
104.14 |
9.11 |
1.1 This Test Method covers the
determination of 58 trace elements in plutonium (Pu) metal. The Pu
sample is dissolved in acid, and the concentration of the trace
impurities are determined by Inductively Coupled Plasma-Mass
Spectroscopy (ICP-MS).
1.2 This Test Method is specific for the determination of trace impurities in Pu metal. It may be applied to other types of Pu materials, such as Pu oxides, if the samples are dissolved and oxidized to the Pu(IV) state. However, it is the responsibility of the user to evaluate the performance of other matrices.
1.3 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.
1.4 This standard does not purport to address all of the safety concerns associated with its use. It is the responsibility of the user of this method to establish appropriate safety and health practices and to determine the applicability of regulatory limitations prior to use of this standard.
|
Standard Test Methods for Chemical, Mass Spectrometric, Spectrochemical, Nuclear, and Radiochemical Analysis of Nuclear-Grade Plutonium Nitrate Solutions |
|
|
Standard Test Methods for Chemical, Mass Spectrometric, Spectrochemical, Nuclear, and Radiochemical Analysis of Nuclear-Grade Plutonium Metal |
|
|
Standard Test Method for Determination of Impurities in Plutonium: Acid Dissolution, Ion Exchange Matrix Separation, and Inductively Coupled Plasma-Atomic Emission Spectroscopic (ICP/AES) Analysis |
|
|
Standard Specification for Reagent Water |
|
|
Standard Practice for Preparation and Dissolution of Plutonium Materials for Analysis |
|
|
Standard Specification for Nuclear-Grade Plutonium Dioxide Powder for Light Water Reactors |
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