By visiting this site, you accept the use of cookies. More about our cookie policy.

GOST 27981.1-2015

STATE P 57376-2016 GOST 193-2015 GOST 27981.5-2015 GOST 27981.2-2015 GOST 27981.1-2015 GOST 13938.11-2014 GOST P 56240-2014 GOST 859-2014 GOST P 55685-2013 STATE P 54922-2012 STATE STANDARD P 54310-2011 GOST 31382-2009 STATE R 52998-2008 GOST 859-2001 GOST 6674.4-96 GOST 6674.3-96 GOST 6674.2-96 GOST 6674.1-96 GOST 4515-93 GOST 28515-97 GOST 17328-78 GOST 614-97 GOST 15527-70 GOST 13938.13-77 GOST 13938.13-93 GOST 1020-77 GOST 5017-2006 GOST 1652.11-77 GOST 15027.12-77 GOST 15027.11-77 GOST 493-79 GOST 1953.9-79 GOST 23859.2-79 GOST 1953.5-79 GOST 1953.3-79 GOST 1953.12-79 GOST 1953.6-79 GOST 15027.18-86 GOST 27981.2-88 GOST 27981.5-88 GOST 15027.5-77 GOST 1652.12-77 GOST 15027.8-77 GOST 1652.7-77 GOST 15027.6-77 GOST 15027.7-77 GOST 1652.2-77 GOST 1652.4-77 GOST 15027.2-77 GOST 1652.8-77 GOST 1652.3-77 GOST 13938.6-78 GOST 13938.7-78 GOST 13938.1-78 GOST 13938.2-78 GOST 13938.4-78 GOST 13938.8-78 GOST 13938.10-78 GOST 13938.12-78 GOST 23859.8-79 GOST 1953.1-79 GOST 613-79 GOST 9716.2-79 GOST 23912-79 GOST 23859.1-79 GOST 23859.4-79 GOST 1953.2-79 GOST 20068.1-79 GOST 9717.3-82 GOST 9717.1-82 GOST 27981.4-88 GOST 28057-89 GOST 6674.5-96 GOST 23859.11-90 GOST 24978-91 GOST 15027.14-77 GOST 15027.10-77 GOST 15027.4-77 GOST 1652.6-77 GOST 1652.10-77 GOST 15027.9-77 GOST 13938.5-78 GOST 13938.11-78 GOST 18175-78 GOST 13938.3-78 GOST 23859.6-79 GOST 1953.4-79 GOST 1953.8-79 GOST 1953.7-79 GOST 23859.9-79 GOST 1953.11-79 GOST 1953.15-79 GOST 1953.10-79 GOST 1953.16-79 GOST 23859.5-79 GOST 23859.3-79 GOST 9716.3-79 GOST 1953.14-79 GOST 15027.16-86 GOST 15027.17-86 GOST 27981.6-88 GOST 27981.1-88 GOST 15027.20-88 GOST 17711-93 GOST 1652.1-77 GOST 15027.13-77 GOST 1652.5-77 GOST 15027.1-77 GOST 1652.13-77 GOST 1652.9-77 GOST 15027.3-77 GOST 13938.9-78 GOST 23859.10-79 GOST 193-79 GOST 20068.2-79 GOST 1953.13-79 GOST 23859.7-79 GOST 9716.1-79 GOST 20068.3-79 GOST 24048-80 GOST 9717.2-82 GOST 15027.15-83 GOST 15027.19-86 GOST 27981.3-88 GOST 20068.4-88 GOST 27981.0-88 GOST 13938.15-88 GOST 6674.0-96

GOST 27981.1−2015 Copper of high purity. Method of atomic-spectral analysis


GOST 27981.1−2015


INTERSTATE STANDARD

HIGH PURITY COPPER

Method of atomic-spectral analysis

High purity copper. Method of atomic-spectral analysis


ISS 77.120.30

Date of introduction 2016−11−01


Preface


Goals, basic principles and main procedure of works on interstate standardization have been established in GOST 1.0−92 «interstate standardization system. Basic provisions» and GOST 1.2−2009 «interstate standardization system. Interstate standards, rules and recommendations on interstate standardization. Rules of development, adoption, application, renewal and cancellation"

Data on standard

1 DEVELOPED by the Technical Committee for standardization TC 368 «Copper"

2 recorded by the Interstate technical Committee for standardization MTK 503 «Copper"

3 ACCEPTED by the Interstate Council for standardization, Metrology and certification (minutes of August 27, 2015 N 79-P)

The adoption voted:

     
Short name of the country on MK (ISO 3166) 004−97
Country code, pomc (ISO 3166) 004−97
Abbreviated name of the national authority for standardization
Armenia
AM
Ministry Of Economy Of The Republic Of Armenia
Belarus
BY
Gosstandart Of The Republic Of Belarus
Kazakhstan
KZ
Gosstandart Of The Republic Of Kazakhstan
Kyrgyzstan
KG
Kyrgyzstandard
Russia
EN
Rosstandart
Tajikistan
TJ
Tajikstandart

4 by Order of the Federal Agency for technical regulation and Metrology dated 17 February 2016 N 50 St interstate standard GOST 27981.1−2015 promulgated as the national standard of the Russian Federation from November 1, 2016.

5 REPLACE GOST 27981.1−88


Information about the changes to this standard is published in the annual reference index «National standards», and the text changes and amendments — in monthly information index «National standards». In case of revision (replacement) or cancellation of this standard a notification will be published in the monthly information index «National standards». Relevant information, notification and lyrics are also posted in the information system of General use — on the official website of the Federal Agency for technical regulation and Metrology on the Internet

1 Scope


This standard specifies the method of measurement of mass fraction of impurities in the copper in the ranges presented in table 1 by the method of atomic emission spectrometry with inductively coupled plasma spectrometers, providing axial observation of the plasma.

General requirements for methods of measurements, security, accuracy control of measurement results in accordance with GOST and GOST 25086 31382.


Table 1 — the measurement Range of mass fraction of components in copper

   
The name of the designated component

The range of the mass fraction of component millionГОСТ 27981.1-2015 Медь высокой чистоты. Метод атомно-спектрального анализа(ppm)

Silver
From 0.30 to 50.00 vkuc.
Aluminium
From 0.05 to 20.00 vkuc.
Arsenic
From 0.05 to 20.00 vkuc.
Gold
From 0.05 to 20.00 vkuc.
Bismuth
From 0.30 to 20.00 vkuc.
Cadmium
From 0.03 to 20.00 vkuc.
Cobalt
From 0.03 to 20.00 vkuc.
Chrome
From 0.03 to 20.00 vkuc.
Iron
From 0.10 to 50.00 vkuc.
Magnesium
From 0.010 to 20.00 vkuc.
Manganese
From 0.010 to 20.00 vkuc.
Nickel
From 0.10 to 50.00 vkuc.
Phosphorus
From 0.10 to 20.00 vkuc.
Lead
From 0.05 to 20.00 vkuc.
Sulfur
From 0.30 to 50.00 vkuc.
Antimony
From 0.10 to 20.00 vkuc.
Selenium
From 0.30 to 20.00 vkuc.
Tin
From 0.05 to 20.00 vkuc.
Silicon
From 0.30 to 20.00 vkuc.
Tellurium
From 0.50 to 20.00 vkuc.
Zinc
From 0.10 to 20.00 vkuc.

2 Normative references


This standard uses the regulatory references to the following international standards:

GOST 123−2008 Cobalt. Specifications

GOST 804−93 primary Magnesium ingots. Specifications

GOST 849−2008 Nickel primary. Specifications

GOST 859−2014 Copper. Brand

GOST 860−75 Tin. Specifications

GOST 1089−82 Antimony. Specifications

GOST 1467−93 Cadmium. Specifications

GOST 1770−74 (ISO 1042−83, ISO 4788−80) Glassware volumetric laboratory glass. Cylinders, beakers, flasks, test tubes. General specifications

GOST 3640−94 Zinc. Specifications

GOST 3771−74 Reagents. Ammonium phosphate odnosemjannyj. Specifications

GOST 4220−75 Reagents. Potassium dichromate. Specifications

GOST ISO 5725−6-2003 Accuracy (trueness and precision) of methods and measurement results. Part 6. The use of precision values in practice*
_______________
* On the territory of the Russian Federation GOST R ISO 5725−6-2002 «Accuracy (trueness and precision) of methods and measurement results. Part 6. The use of precision values in practice».


GOST 6008−90 metallic Manganese and nitrated manganese. Specifications

GOST 6835−2002 Gold and alloys on its basis. Brand

GOST 6836−2002 Silver and alloys on its basis. Brand

GOST 9849−86 iron Powder. Specifications

GOST 10157−79 Argon gaseous and liquid. Specifications

GOST 10298−79 Selenium technical. Specifications

GOST 10928−90 Bismuth. Specifications

GOST 11069−2001 primary Aluminium. Brand

GOST 11125−84 nitric Acid of high purity. Specifications

GOST 14261−77 hydrochloric Acid of high purity. Specifications

GOST 22861−93 Lead of high purity. Specifications

GOST 24104−2001 laboratory Scales. General technical requirements*
_______________
* On the territory of the Russian Federation GOST R 53228−2008 «Scales non-automatic actions. Part 1. Metrological and technical requirements. Test"


GOST 25086−2011 non-ferrous metals and their alloys. General requirements for methods of analysis

GOST 31382−2009 Copper. Methods of analysis

Note — When using this standard appropriate to test the effect of reference standards in the information system of General use — on the official website of the Federal Agency for technical regulation and Metrology on the Internet or in the annual information index «National standards» published as on January 1 of the current year, and the editions of the monthly information index «National standards» for the current year. If the reference standard is replaced (changed), when using this standard should be guided by replacing (amended) standard. If the reference standard is cancelled without replacement, then the situation in which the given link applies to the extent that does not affect this link.

3 Characteristics of measurement accuracy


The accuracy of measuring the mass fraction of components in the copper corresponds to the characteristics given in table 2 (with R=0,95).

Limit values of repeatability and reproducibility of the measurement at a confidence probability P=0.95 is shown in table 2.


Table 2 — values of the indicator of measurement accuracy, limits of repeatability and reproducibility of measurements of mass fraction of components in copper with confidence probability P=0,95