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EN 17637:2022

(Main)

Construction products: Assessment of release of dangerous substances - Dose assessment of emitted gamma radiation

Construction products: Assessment of release of dangerous substances - Dose assessment of emitted gamma radiation

This document describes a calculation method to determine the indoor gamma dose from construction products. The method includes calculation of the indoor gamma dose from the individual construction product under its intended use, as well as the dose from the building taking consideration of multiple building materials where this is deemed necessary and any shielding from the terrestrial background.
The calculation method builds on existing modelling principles for photon emission and absorption. Parameters of the modelling that are not product specific, such as room geometry, exposure coefficients, and conversion factors are predefined and form the underlying basis for the method in this EN. The choice for pre-defined model parameters is essential from a harmonization perspective, despite the fact that such parameters can vary considerably for every homeowner, building type, region or country. Typical examples are the exposure time, the location of exposure in the building, the terrestrial background radiation and the amounts and way the building materials are used in the building. The parameters are selected on the basis of international consensus, as laid down in ICRP, UNSCEAR, EU RP guidelines and other renowned publications. Product specific parameters such as density and thickness are specified in accordance with the product’s intended use. In addition, the products’ massic activities of 226Ra, 232Th and 40K are specified and obtained according to prEN 17216 (under development, [3]). The method provides a tiered approach with a basic approach intended for assessing individual construction products, followed by a more refined approach to assess a complete building design. The former approach assumes an identical structure of building materials on all six surfaces of the model room, and where needed complemented with other building materials that form an intrinsic part of the product’s intended use. The latter approach enables evaluation of a known building design. Here the user can specify the applied construction product to walls, floor or ceiling separately in accordance with the product’s intended use.
The indoor gamma dose from the individual construction product as well as the building is expressed in terms of an annual effective dose from gamma radiation in the indoor environment. The formulation of the indoor gamma dose in the building is consistent with the dose for indoor external exposure as stated under Article 75 of the Basic Safety Standards Directive. As a result, the described method enables assessment of the calculated annual dose of the building against the reference level as defined in the Basic Safety Standards Directive .
The method is designed for assessment of mineral based building materials applied in bulk or superficially and used as a construction product in buildings. This includes any building materials that have been identified by EU member states as being of concern from a radiation protection point of view. The method is envisaged for use by producers of building materials, architects and building constructors as well as authorities.
NOTE   It is important to state that following the calculation of dose, any subsequent regulatory classification falls explicitly outside the scope of this method and is the responsibility of the relevant authorities.

Bauprodukte - Bewertung der Freisetzung von gefährlichen Stoffen - Verfahren zur Beurteilung von emittierter Gammastrahlung

Dieses Dokument beschreibt ein Berechnungsverfahren zur Bestimmung der Gamma-Dosis in Innenräumen aus Baupro¬dukten. Dieses Verfahren beinhaltet die Berechnung der Gamma-Dosis aus dem einzelnen Bauprodukt unter Berücksichtigung seines vorgesehenen Verwendungszwecks sowie der Dosis aus dem Gebäude unter Berücksichtigung mehrerer Baustoffe, wo dies als notwendig angesehen wird, und jeder Abschirmung des terrestrischen Hintergrundes.
Das Berechnungsverfahren basiert auf bestehenden Modellierungsgrundsätzen für die Photonenemission und  absorption. Parameter der Modellierung, die nicht produktspezifisch sind, wie etwa die Raumgeo-metrie, Expositionskoeffizienten und Konversionsfaktoren, sind vordefiniert und bilden die Grundlage für das Verfahren in dieser europäischen Norm. Die Auswahl vordefinierter Modellparameter ist aus Sicht der Harmonisierung wesentlich, auch wenn solche Parameter je nach Hauseigentümer, Gebäudetyp, Region oder Land erheblich variieren können. Übliche Beispiele sind die Expositionsdauer, die Lage der Exposition im Gebäude, die terrestrische Hintergrundstrahlung und die Mengen und Verwendungsweise des Baustoffs im Gebäude. Die Parameter werden auf der Grundlage eines internationalen Konsenses ausgewählt, wie in den Strahlenschutzleitfäden der ICRP (en: International Commission on Radiological Protection, Internationale Strahlenschutzkommission), der UNSCEAR (en: United Nations Scientific Committee on the Effects of Atomic Radiation, Wissenschaftlicher Ausschuss der Vereinten Nationen zur Untersuchung der Auswirkungen atomarer Strahlung), der EU und anderen anerkannten Publikationen festgelegt wurde. Produktspezifische Parameter wie Dichte und Dicke werden entsprechend der vorgesehenen Verwendungszwecke des Produkts festgelegt. Darüber hinaus werden die spezifischen Aktivitäten von 226Ra, 232Th und 40K des Produkts gemäß prEN 17216  [3] festgelegt und ermittelt. Das Verfahren bietet einen stufenweisen Ansatz mit einem grundlegenden Ansatz für die Bewertung einzelner Bauprodukte, gefolgt von einem differenzierteren Ansatz zur Bewertung einer kompletten Gebäudebemessung. Der erste Ansatz geht von einem identischen Aufbau der Baustoffe auf allen sechs Oberflächen des Modellraums aus und, sofern benötigt, ergänzt um weitere Baustoffe, die fester Teil des vorgesehenen Verwendungszwecks des Produkts sind. Der letztere Ansatz ermöglicht die Bewertung einer bekannten Gebäudebemessung. Hier kann der Anwender das angewendete Bauprodukt auf Wänden, Boden und Decke separat festlegen, entsprechend des vorgesehenen Verwendungszwecks des Produkts.
Die Gamma-Dosis in Innenräumen aus einzelnen Bauprodukten sowie des Gebäudes wird als jährliche effektive Gamma-Dosis in Innenraumumgebung angegeben. Die Formulierung der Innenraum-Gammadosis im Gebäude ist mit der Dosis der externen Exposition in Innenräumen nach Artikel 75 der Grundnormenrichtlinie konsistent. Aus diesem Grund ermöglicht das beschriebene Verfahren die Bewertung der berechneten Jahresdosis des Gebäudes in Relation zu dem Referenzwert, wie in der-Grundnormenrichtlinie  definiert.
Das Verfahren ist für die Bewertung mineralischer Baustoffe ausgelegt, die als Volumen- oder Oberflächenmaterial angewandt und als Bauprodukt in Gebäuden eingesetzt werden. Dies umfasst alle Baustoffe, die von den EU-Mitgliedsstaaten als aus Strahlenschutzsicht bedenklich eingestuft wurden. Dieses Verfahren ist für die Anwendung durch Hersteller von Baustoffen, Architekten und Bauunternehmen sowie Behörden vorgesehen.

Produits de construction : Évaluation de l’émission de substances dangereuses - Évaluation de la dose de rayonnement gamma émis

Le présent document décrit une méthode de calcul permettant de déterminer la dose due aux rayonnements gamma émise par les produits de construction à l’intérieur des bâtiments. La méthode comprend le calcul de la dose due aux rayonnements gamma à l’intérieur du bâtiment émise par le produit de construction individuel dans le cadre de son usage prévu, ainsi que le calcul de la dose provenant du bâtiment, en prenant en considération plusieurs matériaux de construction lorsque cela est jugé nécessaire et toute protection éventuelle contre le bruit de fond terrestre.
La méthode de calcul s’appuie sur des principes de modélisation existants pour l’émission et l’absorption des photons. Les paramètres de modélisation qui ne sont pas spécifiques du produit, tels que la géométrie de la pièce, les coefficients d’exposition et les facteurs de conversion, sont prédéfinis et servent de base à la méthode décrite dans la présente EN. Le choix de paramètres de modélisation prédéfinis est essentiel dans une perspective d’harmonisation, bien que ces paramètres puissent varier considérablement pour chaque propriétaire occupant, et selon le type de bâtiment, la région ou le pays. La durée d’exposition, l’emplacement d’exposition dans le bâtiment, le bruit de fond terrestre et les quantités et la manière dont les matériaux de construction sont utilisés dans le bâtiment en sont des exemples types. Les paramètres sont sélectionnés sur la base du consensus international, indiqué dans les lignes directrices de la CIPR, de l’UNSCEAR et de la collection « Radiation Protection » de l’Union européenne et dans d’autres publications renommées. Les paramètres spécifiques du produit, tels que la masse volumique et l’épaisseur, sont spécifiés en fonction de l’usage prévu du produit. De plus, les activités massiques du 226Ra, du 232Th et du 40K des produits sont spécifiées et obtenues conformément au prEN 17216 (en cours d’élaboration, [3]). La méthode fournit une approche fondamentale par étape destinée à évaluer des produits de construction individuels, suivie d’une approche plus approfondie permettant d’évaluer une conception de bâtiment complète. La première approche suppose une structure identique des matériaux de construction sur les six surfaces de la pièce modèle et ceux-ci sont complétés, si nécessaire, par d’autres matériaux de construction qui font partie intégrante de l’usage prévu du produit. La seconde approche permet d’évaluer une conception de bâtiment connue. Ici, l’utilisateur peut spécifier le produit de construction appliqué sur les murs, le plancher ou le plafond séparément en fonction de l’usage prévu du produit.
La dose due aux rayonnements gamma à l’intérieur du bâtiment émise par le produit de construction individuel ainsi que par le bâtiment lui-même est exprimée en termes de dose efficace annuelle due aux rayonnements gamma dans l’environnement intérieur. La formulation de la dose due aux rayonnements gamma à l’intérieur du bâtiment est cohérente avec la dose correspondant à une exposition externe à l’intérieur du bâtiment telle qu’indiquée à l’Article 75 de la Directive « Normes de base relatives à la protection sanitaire ». Par conséquent, la méthode décrite permet d’évaluer la dose annuelle calculée pour le bâtiment par rapport au niveau de référence tel que défini dans la Directive « Normes de base relatives à la protection sanitaire »  .
La méthode est conçue pour l’évaluation des matériaux de construction de nature minérale, massifs ou superficiels, et utilisés comme produits de construction dans les bâtiments...

Gradbeni proizvodi - Ocenjevanje sproščanja nevarnih snovi - Ocenjevanje doze emitiranega gama sevanja

Ta dokument določa metodologijo za določanje doze gama sevanja v zaprtih prostorih iz gradbenih materialov in pomoč pri razvrstitvi takega proizvoda v skladu z zahtevami v Uredbi o gradbenih proizvodih (EU 305/2011). S to metodo je mogoče oceniti razmerje med dejanskim sproščanjem sevanja in dozo, ki so ji izpostavljeni prebivalci stavbe. Metoda upošteva tudi direktivo o temeljnih varnostnih standardih (2013/59/EURATOM).

General Information

Status
Published
Publication Date
29-Nov-2022
ICS
91.100.01 - Construction materials in general
Technical Committee
CEN/TC 351 - Construction Products - Assessment of release of dangerous substances
Drafting Committee
CEN/TC 351/WG 3 - Radiation from construction products
Current Stage
6060 - Definitive text made available (DAV) - Publishing
Start Date
30-Nov-2022
Due Date
06-Nov-2020
Completion Date
30-Nov-2022
Directive
305/2011 - Regulation (eu) No 305/2011 of the European Parliament and of the Council of 9 march 2011 laying down harmonised conditions for the marketing of construction products and repealing council directive 89/106/eec
Mandate
M/366 - Concerning the execution of standardisation work for the development of horizontal standardised assessment methods for harmonized approcaches relating to dangerous substances under the construction products directive (CPD)
Ref Project
SIST EN 17637:2023 - Construction products: Assessment of release of dangerous substances - Dose assessment of emitted gamma radiation

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SLOVENSKI STANDARD
01-februar-2023
Gradbeni proizvodi - Ocenjevanje sproščanja nevarnih snovi - Ocenjevanje doze
emitiranega gama sevanja
Construction products: Assessment of release of dangerous substances - Dose
assessment of emitted gamma radiation
Bauprodukte - Bewertung der Freisetzung von gefährlichen Stoffen - Verfahren zur
Beurteilung von emittierter Gammastrahlung
Produits de construction : Évaluation de l’émission de substances dangereuses -
Évaluation de la dose de rayonnement gamma émis
Ta slovenski standard je istoveten z: EN 17637:2022
ICS:
13.020.99 Drugi standardi v zvezi z Other standards related to
varstvom okolja environmental protection
13.280 Varstvo pred sevanjem Radiation protection
91.100.01 Gradbeni materiali na Construction materials in
splošno general
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

EN 17637
EUROPEAN STANDARD
NORME EUROPÉENNE
November 2022
EUROPÄISCHE NORM
ICS 91.100.01
English Version
Construction products: Assessment of release of
dangerous substances - Dose assessment of emitted
gamma radiation
Produits de construction : Évaluation de l'émission de Bauprodukte - Bewertung der Freisetzung von
substances dangereuses - Évaluation de la dose de gefährlichen Stoffen - Verfahren zur Beurteilung von
rayonnement gamma émis emittierter Gammastrahlung
This European Standard was approved by CEN on 13 June 2022.

CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this
European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references
concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN
member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by
translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management
Centre has the same status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway,
Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Türkiye and
United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2022 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 17637:2022 E
worldwide for CEN national Members.

Contents Page
European foreword . 3
Introduction . 4
1 Scope . 5
2 Normative references . 5
3 Terms and definitions . 6
4 Symbols and abbreviated terms . 8
5 Method for dose assessment . 9
5.1 General . 9
5.2 Assessment for evaluation of a construction product .11
5.2.1 Product information .11
5.2.2 Dose assessment of the construction product .12
5.2.3 Dose assessment of the model building .14
5.3 Assessment for evaluation of a building design .15
5.3.1 Product information .15
5.3.2 Dose assessment of the construction product .16
5.3.3 Dose assessment of the model building .19
6 Reporting .19
Annex A (informative) Description of the dose assessment model .20
A.1 General .20
A.2 Method description .20
A.3 Dimensions of the model room .20
A.4 Model assumptions .20
Annex B (informative) Examples of dose assessment .22
B.1 Assessment for evaluation of the construction product .22
B.2 Assessment for evaluation of the building design .25
Bibliography .28

European foreword
This document (EN 17637:2022) has been prepared by Technical Committee CEN/TC 351 “Construction
products: Assessment of release of dangerous substances”, the secretariat of which is held by NEN.
This European Standard shall be given the status of a national standard, either by publication of an
identical text or by endorsement, at the latest by May 2023, and conflicting national standards shall be
withdrawn at the latest by May 2023.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CEN shall not be held responsible for identifying any or all such patent rights.
This document has been prepared under a Standardization Request given to CEN by the European
Commission and the European Free Trade Association.
Any feedback and questions on this document should be directed to the users’ national standards body.
A complete listing of these bodies can be found on the CEN website.
According to the CEN-CENELEC Internal Regulations, the national standards organisations of the
following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Croatia,
Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland,
Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Republic of North
Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Türkiye and the United
Kingdom.
Introduction
In January 2014 the Basic Safety Standards Directive (2013/59/Euratom) [1], also named EU-BSS, was
issued laying down basic safety standards for the protection against the danger arising from exposure to
ionising radiation. The directive also sets requirements on the gamma radiation dose from the naturally
226 232 40
occurring radionuclides ( Ra, Th and K) in building materials and must be taken into account along
with the 2011 EU regulation laying down harmonized conditions for the marketing of construction
products (EU no 305/2011) [2], so called CPR. Both EU regulatory documents constitute a new basis for
radiation protection regulation of building materials and are to be complemented by EU guidance and
standards of which this document (EN 17637) is part.
Pivotal in the regulatory system of the EU-BSS and CPR is the dose assessment of building materials and
its compliance against a reference level as defined under Article 75 of the EU-BSS. For this purpose, an
activity concentration index is provided in the directive under Annex VIII. The index value is determined
226 232 40
using the material’s massic activities of Ra, Th and K. As the index is proposed as a conservative
screening tool provisions are put in place under Annex VIII to allow for more precise assessment of the
dose if needed. This includes consideration of the material’s density, thickness and other factors relating
to the type of construction and the intended use. However, no method for a more refined dose assessment
is provided in the directive, despite the fact that various EU member states allow for such refined
assessment. This EN document serves as a harmonized standard under the CPR to address the provisions
in the EU-BSS for a more refined assessment.
This document is an addition to the activity concentration index as formulated in the Annex VIII of the
EU-BSS. The method describes a dose assessment that takes account of all factors stipulated under
Annex VIII of the directive. In the method, important consideration is given to differentiate between the
dose from the individual construction product and the assembly of products that result in the dose from
the model building. In the EU-BSS dose requirements are expressed in terms of a dose from the building,
while the CPR is intended to set product specific requirements. For this reason, the method provides for
a calculation of dose from the individual product, followed by a calculation of the product assembly with
subtraction of terrestrial background dose to enable assessment against the reference level defined in
Article 75 of the EU-BSS.
The document provides the following structure:
— A normative instruction on the use of the assessment method with description of the equations and
parameters to be used, followed by a list of information to be reported;
— An informative annex with a description of the dose assessment model, including explanation of the
modelling principles, main assumptions, coefficients and conversion factors;
— An informative annex containing a series of examples on the use of the assessment method.
1 Scope
This document describes a calculation method to determine the indoor gamma dose from construction
products. The method includes calculation of the indoor gamma dose from the individual construction
product under its intended use, as well as the dose from the building taking consideration of multiple
building materials where this is deemed necessary and any shielding from the terrestrial background.
The calculation method builds on existing modelling principles for photon emission and absorption.
Parameters of the modelling that are not product specific, such as room geometry, exposure coefficients,
and conversion factors are predefined and form the underlying basis for the method in this EN. The choice
for pre-defined model parameters is essential from a harmonization perspective, despite the fact that
such parameters can vary considerably for every homeowner, building type, region or country. Typical
examples are the exposure time, the location of exposure in the building, the terrestrial background
radiation and the amounts and way the building materials are used in the building. The parameters are
selected on the basis of international consensus, as laid down in ICRP, UNSCEAR, EU RP guidelines and
other renowned publications. Product specific parameters such as density and thickness are specified in
226 232
accordance with the product’s intended use. In addition, the product’s massic activities of Ra, Th and
K are specified and obtained according to prEN 17216 [3]. The method provides a tiered approach
with a basic approach intended for assessing individual construction products, followed by a more
refined approach to assess a complete building design. The former approach assumes an identical
structure of building materials on all six surfaces of the model room, and where needed complemented
with other building materials that form an intrinsic part of the product’s intended use. The latter
approach enables evaluation of a known building design. Here the user can specify the applied
construction product to walls, floor or ceiling separately in accordance with the product’s intended use.
The indoor gamma dose from the individual construction product as well as the building is expressed in
terms of an annual effective dose from gamma radiation in the indoor environment. The formulation of
the indoor gamma dose in the building is consistent with the dose for indoor external exposure as stated
under Article 75 of the Basic Safety Standards Directive. As a result, the described method enables
assessment of the calculated annual dose of the building against the reference level as defined in the Basic
Safety Standards Directive .
The method is designed for assessment of mineral based building materials applied in bulk or
superficially and used as a construction product in buildings. This includes any building materials that
have been identified by EU member states as being of concern from a radiation protection point of view.
The method is envisaged for use by producers of building materials, architects and building constructors
a
...

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SIST EN 17195:2024

This document specifies analytical methods for the determination of major, minor and trace elements and of anions in aqueous eluates from construction products. It refers to the following 67 elements:
Aluminium (Al), antimony (Sb), arsenic (As), barium (Ba), beryllium (Be), bismuth (Bi), boron (B), cadmium (Cd), calcium (Ca), cerium (Ce), caesium (Cs), chromium (Cr), cobalt (Co), copper (Cu), dysprosium (Dy), erbium (Er), europium (Eu), gadolinium (Gd), gallium (Ga), germanium (Ge), gold (Au), hafnium (Hf), holmium (Ho), indium (In), iridium (Ir), iron (Fe), lanthanum (La), lead (Pb), lithium (Li), lutetium (Lu), magnesium (Mg), manganese (Mn), mercury (Hg), molybdenum (Mo), neodymium (Nd), nickel (Ni), palladium (Pd), phosphorus (P), platinum (Pt), potassium (K), praseodymium (Pr), rubidium (Rb), rhenium (Re), rhodium (Rh), ruthenium (Ru), samarium (Sm), scandium (Sc), selenium (Se), silicon (Si), silver (Ag), sodium (Na), strontium (Sr), sulphur (S), tellurium (Te), terbium (Tb), thallium (Tl), thorium (Th), thulium (Tm), tin (Sn), titanium (Ti), tungsten (W), uranium (U), vanadium (V), ytterbium (Yb), yttrium (Y), zinc (Zn), and zirconium (Zr)
and to the following four anions: Cl-, Br-, F-, SO42-.
This document also describes how to measure general parameters like pH, electrical conductivity, DOC/TOC.
The methods in this document are applicable to construction products.
NOTE   Construction products include e.g. mineral-based products (S); bituminous products (B); metals (M); wood-based products (W); plastics and rubbers (P); sealants and adhesives (A); paints and coatings (C), see also CEN/TR 16045.
The selection of analytical methods to be applied is based on the required sensitivity of the method, which is provided for all combinations of substance and analytical procedure.

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CEN
EN 17844:2023(Main)
Construction products: Assessment of release of dangerous substances - Determination of the content of polycyclic aromatic hydrocarbons (PAH) and of benzene, toluene, ethylbenzene and xylenes (BTEX) - Gas chromatographic method with mass spectrometric detection
SIST EN 17844:2024

This document describes two methods for determining the content of polycyclic aromatic hydrocarbons (PAH) and one method for determining the content of benzene, toluene, ethylbenzene and xylenes (BTEX) with gas chromatography with mass spectrometric detection (GC-MS).
See Annex A (normative) for lists of PAH and BTEX that can be determined with this document.
This document is intended to be used for construction products.
In a number of cases additional analysis with high performance liquid chromatography (HPLC) can be necessary to determine a number of compounds. To determine PAH multiple liquid-liquid extraction is used to remove interfering compounds, e.g. maltenes. The tests that led to this document were carried out on different types of roofing material, bitumen and bituminous binders as well as asphalt including one tar containing asphalt (see [Van De Weghe at el., 2018] and [García-Ruiz et al., 2020]).
The detectability limit of the methods for individual compounds in roofing material, asphalt and tar containing asphalt for PAH is 0,5 mg/kg to 1,5 mg/kg and for BTEX 0,1 mg/kg.

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CEN
EN 16687:2023(Main)
Construction products: Assessment of release of dangerous substances - Terminology
SIST EN 16687:2024

This document defines terms used in the field of the assessment of the release, and the content, of dangerous substances from/in construction products.
The terms are classified under the following main headings:
-   terms related to products and substances (general; soil, groundwater and surface water; indoor air);
-   terms related to sampling and sample preparation;
-   terms related to test procedures and test results (general; soil, groundwater and surface water; indoor air, radiation).
An alphabetical index is provided.

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CEN
EN 17196:2023(Main)
Construction products: Assessment of release of dangerous substances - Digestion by aqua regia for subsequent analysis of inorganic substances
SIST EN 17196:2024

This document specifies methods for obtaining the aqua regia digestible content of construction products. Solutions produced by this method are for analysis by inductively coupled plasma mass spectrometry (ICP-MS) and inductively coupled spectrometry (ICP-OES) for the following 67 elements:
Aluminium (Al), antimony (Sb), arsenic (As), barium (Ba), beryllium (Be), bismuth (Bi), boron (B), cadmium (Cd), calcium (Ca), cerium (Ce), caesium (Cs), chromium (Cr), cobalt (Co), copper (Cu), dysprosium (Dy), erbium (Er), europium (Eu), gadolinium (Gd), gallium (Ga), germanium (Ge), gold (Au), hafnium (Hf), holmium (Ho), indium (In), iridium (Ir), iron (Fe), lanthanum (La), lead (Pb), lithium (Li), lutetium (Lu), magnesium (Mg), manganese (Mn), mercury (Hg), molybdenum (Mo), neodymium (Nd), nickel (Ni), palladium (Pd), phosphorus (P), platinum (Pt), potassium (K), praseodymium (Pr), rubidium (Rb), rhenium (Re), rhodium (Rh), ruthenium (Ru), samarium (Sm), scandium (Sc), selenium (Se), silicon (Si), silver (Ag), sodium (Na), strontium (Sr), sulphur (S), tellurium (Te), terbium (Tb), thallium (Tl), thorium (Th), thulium (Tm), tin (Sn), titanium (Ti), tungsten (W), uranium (U), vanadium (V), ytterbium (Yb), yttrium (Y), zinc (Zn), and zirconium (Zr).
Solutions produced by the methods are suitable for analysis by cold vapour atomic absorption or fluorescent spectrometry (CV-AAS, CV-AFS), for mercury (Hg).
The method in this document is applicable to construction products.
Digestion with aqua regia will not necessarily accomplish total decomposition of the sample. The extracted analyte concentrations might not necessarily reflect the total content in the sample.
NOTE   Construction products include e.g. mineral-based products (S); bituminous products (B); metals (M); wood-based products (W); plastics and rubbers (P); sealants and adhesives (A); paints and coatings (C), see also CEN/TR 16045.

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CEN
EN 17332:2023(Main)
Construction products: Assessment of release of dangerous substances - Analysis of organic substances in eluates
SIST EN 17332:2024

This document specifies methods for the determination of specific organic substances in aqueous eluates from leaching of construction products.
The following parameters are covered: pH, electrical conductivity, biocides, bisphenol A, BTEX, dioxins and furans, DOC, epichlorohydrin, mineral oil, nonylphenols, PAH, PBDE, PCB, dioxin-like PCB, PCP, phenols and phthalates.
NOTE 1   Methods still under development or available at national level only are listed in Annex B (informative) for certain amines, AOX, and biocidal and plant protection products.
NOTE 2   Methods that have not been validated for aqueous eluates from leaching of construction products, because no suitable material was available at the time of the robustness validation, only are listed in Annex B (informative). This applies to organotin compounds.
The methods in this document come from different fields, mainly the analysis of water, and are applicable for the eluates from construction products. They are validated for eluates of the product types listed in Annex A (informative).
NOTE 3   Construction products include, e.g. mineral-based products (S), bituminous products (B), wood-based products (W), plastic and rubbers (P), sealants and adhesives (A), paints and coatings (C) and metals (M) (see also CEN/TR 16045). This document includes analytical methods for all matrices except metals.
The selection of the method to be applied is based on the product matrix and the required sensitivity.

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