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CEN/TS 15117:2005

(Main)

Guidance on direct and extended application

Guidance on direct and extended application

This Technical Specification gives guidance for the direct and extended application instructions, in order to fulfil the instructions from the EU Commission to evaluate the reaction to fire performance of products as placed on the market and of its end-use application(s), where relevant.

Leitfaden zum direkten und erweiterten Anwendungsbereich zum Brandverhalten von Bauprodukten

Dieses Dokument gibt Hinweise für die Vorgehensweise bei Erstellung einer Anleitung zum direkten und
erweiterten Anwendungsbereich, um die Vorgaben der EU Kommission umzusetzen, in den Verkehr
gebrachte Bauprodukte auf ihr Brandverhalten hin zu beurteilen, sofern zutreffend unter Berücksichtigung
ihrer Endanwendung.

Guide des applications directes et étendues

La présente Spécification technique constitue un guide pour l'établissement des règles d'application directe et étendue permettant de suivre les instructions de la Commission européenne pour évaluer la performance de réaction au feu des produits mis sur le marché et de leurs utilisations finales, le cas échéant.

Navodilo za neposredno in razširjeno uporabo

General Information

Status
Published
Publication Date
30-Aug-2005
ICS
13.220.50 - Fire-resistance of building materials and elements
Technical Committee
CEN/TC 127 - Fire safety in buildings
Drafting Committee
CEN/TC 127 - Fire safety in buildings
Current Stage
9093 - Decision to confirm - Review Enquiry
Start Date
20-Jul-2009
Completion Date
20-Jul-2009
Ref Project
SIST-TS CEN/TS 15117:2006 - Guidance on direct and extended application

Overview

CEN/TS 15117:2005 provides guidance on the direct and extended application of reaction-to-fire test results for construction products. Its purpose is to help manufacturers, test laboratories and standards bodies evaluate a product’s reaction-to-fire performance “as placed on the market” and for relevant end‑use applications, in line with EU Commission instructions. The Technical Specification explains how to determine when a single test result can be applied to product variants (direct application) or how test results and calculations can be used to predict performance for a wider range of product or end‑use parameters (extended application).

Key topics and requirements

  • Scope and intent: Guidance for applying reaction-to-fire test outcomes to product variants and real end‑use conditions to support classification and CE marking processes.
  • Product and end‑use parameters: Examples include thickness, density, surface coating, composition, geometry and end‑use factors such as substrate type, mounting/fixing method, joints, air gaps and orientation.
  • Direct application:
    • Two development routes: harmonised rules from a CEN product technical committee or manufacturer‑specific rules.
    • Principle of the “lowest” performance: changes that lower fire performance must be treated conservatively; each fire performance parameter is assessed independently.
  • Extended application:
    • By additional tests (single parameter or multi‑parameter experimental plans) to define performance relationships.
    • By validated calculation methods (requires experimental validation).
    • Use of experimental design and statistical planning is recommended for multi‑parameter studies.
  • Annexes and examples: Normative Annex A analyses parameter influence on specific reaction-to-fire tests; informative Annexes B and C give direct and extended application examples and test planning guidance.

Practical applications and users

Who uses this Technical Specification:

  • Manufacturers defining product groups, internal rules/limits and preparing technical files for CE marking.
  • Test laboratories designing test programs to support direct or extended application claims.
  • Certification bodies, notified bodies and authorities evaluating classification evidence and compliance.
  • Standards committees and product working groups developing harmonised technical specifications.

Practical uses:

  • Determine when one test result can be applied to similar product variants.
  • Plan additional testing or validate calculation methods to widen the field of application.
  • Support fire classification (EN 13501 series) and market placement decisions for construction products.

Related standards

  • EN 13501 (all parts) - Fire classification of construction products and building elements
  • EN 13823, EN ISO 11925-2, EN ISO 9239-1, EN ISO 1182, EN ISO 1716, EN 13238 - Reaction-to-fire test methods and conditioning rules

Keywords: CEN/TS 15117, reaction to fire, direct application, extended application, fire classification, construction products, EN 13501, product parameters, test methods.

TS CEN/TS 15117:2006TS CEN/TS 15117:2006
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Technical specification
TS CEN/TS 15117:2006
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SLOVENSKI STANDARD
01-januar-2006
Navodilo za neposredno in razširjeno uporabo
Guidance on direct and extended application
Leitfaden zum direkten und erweiterten Anwendungsbereich zum Brandverhalten von
Bauprodukten
Guide des applications directes et étendues
Ta slovenski standard je istoveten z: CEN/TS 15117:2005
ICS:
13.220.50 Požarna odpornost Fire-resistance of building
gradbenih materialov in materials and elements
elementov
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

TECHNICAL SPECIFICATION
CEN/TS 15117
SPÉCIFICATION TECHNIQUE
TECHNISCHE SPEZIFIKATION
August 2005
ICS 13.220.50
English Version
Guidance on direct and extended application
Guide pour l'établissement des applications directes et des Leitfaden zum direkten und erweiterten
applications étendues Anwendungsbereich zum Brandverhalten von
Bauprodukten
This Technical Specification (CEN/TS) was approved by CEN on 3 April 2005 for provisional application.
The period of validity of this CEN/TS is limited initially to three years. After two years the members of CEN will be requested to submit their
comments, particularly on the question whether the CEN/TS can be converted into a European Standard.
CEN members are required to announce the existence of this CEN/TS in the same way as for an EN and to make the CEN/TS available
promptly at national level in an appropriate form. It is permissible to keep conflicting national standards in force (in parallel to the CEN/TS)
until the final decision about the possible conversion of the CEN/TS into an EN is reached.
CEN members are the national standards bodies of Austria, Belgium, Cyprus, Czech Republic, Denmark, Estonia, Finland, France,
Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Slovakia,
Slovenia, Spain, Sweden, Switzerland and United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
Management Centre: rue de Stassart, 36  B-1050 Brussels
© 2005 CEN All rights of exploitation in any form and by any means reserved Ref. No. CEN/TS 15117:2005: E
worldwide for CEN national Members.

Contents
Page
Foreword .3
1 Scope .4
2 Normative references .4
3 Terms and definitions.4
4 Product and end-use application parameters.5
5 Direct application.6
6 Extended application .7
Annex A (normative) Influence of product and end-use parameters on reaction to fire test
performance .9

Annex B (informative) Direct application.14
Annex C (informative) Example of extended application by additional tests on several
parameters.22
Bibliography.28

Foreword
This Technical Specification (CEN/TS 15117:2005) has been prepared by Technical Committee CEN/TC 127
“Fire safety in buildings”, the secretariat of which is held by BSI.
According to the CEN/CENELEC Internal Regulations, the national standards organizations of the following
countries are bound to announce this CEN Technical Specification: Austria, Belgium, Cyprus, Czech Republic,
Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania,
Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Slovakia, Slovenia, Spain, Sweden, Switzerland
and United Kingdom.
1 Scope
This Technical Specification gives guidance for the direct and extended application instructions, in order to
fulfil the instructions from the EU Commission to evaluate the reaction to fire performance of products as
placed on the market and of its end-use application(s), where relevant.
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
EN 13238, Reaction to fire tests for building products – Conditioning procedures and general rules for
selection of substrates.
EN 13501(all parts), Fire classification of construction products and building elements.
EN 13823, Reaction to fire tests for building products – Building products excluding floorings exposed to the
thermal attack by a single burning item.
EN ISO 1182, Reaction to fire tests for building products – Non-combustibility test (ISO 1182:2002).
EN ISO 1716, Reaction to fire tests for building products – Determination of the heat of combustion (ISO
1716:2002).
EN ISO 9239-1, Reaction to fire tests for floorings – Part 1: Determination of the burning behaviour using a
radiant heat source (ISO 9239-1:2002).
EN ISO 11925-2, Reaction to fire tests - Ignitability of building products subjected to direct impingement of
flame - Part 2: Single-flame source test (ISO 11925-2:2002).
3 Terms and definitions
For the purposes of this Technical Specification, the following terms and definitions apply.

3.1
test result
outcome of a testing process and its associated procedures detailed within a specific test standard (which
may include some processing of the results from the testing of a number of specimens). A test result is
expressed in terms of one or more fire performance parameter(s)
3.2
direct field of application of test results
outcome of a process (involving the application of defined rules) whereby a test result is deemed to be equally
valid for variations in one or more of the product properties and/or intended end use applications
3.3
extended field of application of test results
outcome of a process (involving the application of defined rules that may incorporate calculation procedures)
that predicts, for a variation of a product property and/or its intended end use application(s), a test result on
the basis of one or more test results to the same test standard
3.4
classification
process defined in the Parts of EN 13501, whereby the fire performance parameters obtained from the results
of one test, or a set of tests, or from a process of extended application, are compared with limiting values for
those parameters that are set as criteria for achieving a certain classification. The relevant classes and related
criteria for fire resistance, for reaction to fire and for external fire exposure to roofs, are specified in
Commission Decisions (2000/367/EC, 2000/147/EC and 2001/671/EC respectively)
3.5
product
material, element or component, about which information is required (EN 13501-1). Refers to a construction
product, as defined by the Construction Products Directive (CPD), from an individual producer (i.e. the item to
which the CE marking applies) (EC Guidance Paper G)
3.6
product group
range of products within defined limits of variability (defined by the manufacturer or a technical specification)
of the product parameters and, if relevant, end-use parameters, for which the reaction to fire performance
remains unchanged (does not get worse)
3.7
product parameter
aspect of a product (for example thickness, composition, density) which may vary and which may or may not
have an influence on the product’s fire performance
3.8
end use application
real application of a product, in relation to all aspects that influence the behaviour of that product under
different fire situations. It covers aspects such as its quantity, its orientation, its position in relation to other
adjacent products and its method of fixing (EN 13501-1)
3.9
end-use application parameter
aspect of the mounting and fixing arrangement of a product reflecting/simulating its end use application (for
example type of substrate, fixing method, position and type of joints) which may or may not affect the fire
performance
4 Product and end-use application parameters
Table 1 gives examples of product parameters and end-use application parameters which may have to be
taken into account in developing direct and extended application rules. If other parameters are found to be
relevant for a given product, then these too should be considered.
The technical specification of the manufacturers has to define the end-use application parameters for the
particular product (group) which could influence the results of the reaction to fire tests in the fire tests.

Table 1 – Examples for product and end-use applications parameters (non-exhaustive list)
Product parameters End-use application parameters
Thickness Substrate or underlying construction
Density (or related parameter, e.g. Mounting method (e.g. directly onto substrate,
mass/square metre) onto wooden framework)
Colour Fixing method (e.g. adhesive, spacing and
type of fixings (screws, nails, etc.))
Surface coating/facing Type and position of joints
Composition of the product Presence of air gaps
Geometry and structure, product shape, Product orientation and geometry
number and composition of layers, …
Exposure to thermal attack
5 Direct application
5.1 General principles for direct application
This clause gives the principles of, and rules for, the development of direct application of tests results leading
to fire classification. It also lists the product parameters and end-use application parameters which need to be
taken into account. Parameters will need to be examined one by one depending on the product, and the limits
chosen to ensure that the basic principle, that the reaction to fire performance remains unchanged, holds.
Two possibilities exist for the development and implementation of direct application rules. The first is where
the rules are developed by, for example, a CEN product TC (or EOTA WG) in collaboration with CEN TC127
and then these rules are written into a harmonised technical specification. These rules/limits are then
applicable to all users of the technical specification. The second is where an individual manufacturer, in the
absence of written rules/limits in the technical specification, develops his own rules/limits for his particular
product or product group. These rules/limits then apply only to that manufacturer. In this case, however, the
manufacturer shall follow the guidelines given in this document.
In developing direct application rules, the concept of ‘lowest’ performance is important. This means that any
change to the product or end use application parameters which goes in the direction of improving the fire
performance can be relatively easily applied. Changes which go in the direction of lowering the fire
performance have to be treated with care, so as to ensure that there is no lowering of the product’s fire
performance sufficient to lead to a lowering of (additional) class or classification. Each fire performance
parameter shall be considered independently.
Direct application rules may apply to an individual product, or a product group, each in their end use
application(s).
While there are commercial and technical advantages in trying to develop direct application limits for all
products covered by a given harmonised technical specification, there is no specific requirement to do so. Nor
is there any specific requirement to define limits for all parameters of the product and its end use applications
parameters which have an effect on fire performance. Where parameters are not given in a harmonised
product specification, then manufacturers have to develop their own specific rules/ limits.
Annex A gives a more detailed presentation of possible effect of changes in product parameters on
classification, and B.1 gives examples of some direct application rules.
6 Extended application
6.1 General principles for extended application
Two options to establish rules for extended application are possible:
 by use of additional tests results which, together with the initial test result, enables consideration of a
larger range of one or several product and end-use application parameters,
 by use of tests results and additional calculations relating the product and end-use application parameters
to the fire performance.
6.2 Extended application by additional tests
6.2.1 Additional tests on one product/end-use application parameter
It is assumed that only one product/end-use application parameter changes and the other parameters remain
constant and that there is an initial test result on one value of the product/end-use application parameter.
If the relationship between the fire performance and the product/end-use application parameter is unknown,
the tests will be carried out on several variants of the parameter to assess the complete range of the
product/end-use application parameter on which the extended application is required and to know this
relationship. From this relationship it will be possible to predict the different levels of fire performance as a
function of the levels of the product/end-use application parameter and therefore the level of classification.
If for a product or a product group there is an established rule about the relationship between the product/end-
use parameter and the fire performance (direct application), it will be possible to optimise the additional tests,
as a function of the classification result which is expected, as follows:
 If a fire performance parameter is known to change with the change of a product/end-use application
parameter(s) in a known direction, the test can be carried out on the parameter, the variation of which is
known to give the lowest (worst) classification for this product and/or its end use-application.
 If it is known that the fire performance changes with a change of the product/end-use application
parameter but the relationship is not known, the number of additional tests shall be sufficient to define the
relationship (sufficient means that the relationship is fully defined over the intended range of parameter
variation). For most relationships this will require at least two additional test results.
When a relationship has been established, it may be used to establish the value of the fire performance
parameters used to determine the classification of any product or product group covered by this relationship.
B.2 gives examples of this procedure.
6.2.2 Additional tests on several product/end-use application parameters
When more than one product or end-use application parameter is to change, and if the types of relationship
are not known, it will be necessary to assess the tests needed according to an experimental plan or an
empirical approach, examples of which are given in C.1 and C.2.
Then a more detailed series of tests should be performed to determine the relationship between these
parameters and the fire performance.
The study of this relationship shall be carried out from direct tests according to the harmonized European test
methods such as EN ISO 1716, EN ISO 1182, EN 13823, EN ISO 11925-2 and EN ISO 9239-1.
If the types of relationship between the fire performance and the product/end use application parameter are
not known a series of tests will be necessary. The test series can be split into parts to get firstly a result on the
type of the relationship (qualitative result) and secondly full information on the relationship (mathematical
formula), if required.
When a simple approach is used, it has to be kept in mind that the resulting relationships are only valid for the
particular level of the other parameters which were kept constant in the test. A fuller picture with less tests
necessary can be achieved when statistical test planning methods are used.
NOTE Results from other test methods may be used to determine which product parameter need to be tested in
European standard methods.
6.3 Extended application by calculation
For extended application by calculation, it is necessary to have (an) established calculation method(s) shown
to be valid for the intended range of parameter(s). This normally requires the calculation method to be
validated in accordance with 6.2.1 or 6.2.2.
Annex A
(normative)
Influence of product and end-use parameters on reaction to fire test
performance
A.1 Introduction
In the main body of this document, Table 1 shows a non-exhaustive list of product and end-use application
parameters which may or may not influence the reaction to fire test performance of a product. The following is
an analysis of how each of these parameters might influence the test result for each of the five reaction to fire
test methods, assuming that all other parameters are kept unchanged.
Unless the following text says that a parameter has no effect on the performance, no general rules can be
given. However, for some tests it may be possible to interpolate between or extrapolate from data points from
samples having a different value for a particular product and or end- use parameter. It may also be possible to
group products of a similar nature in order to derive a direct application rule.
The influence of a combination of parameter changes in reaction to fire test results may be inter-related. It is
therefore recommended that the combination of product parameters which gives the lowest performance in
the test be identified if possible. If the combination giving the worst performance cannot be identified, tests will
need to be done on a series of combinations.
A.2 Product parameters
Thickness
EN ISO 1716
The test method described in EN ISO 1716 is a test on the individual materials in a product and therefore the
thickness of the product will not influence the fire performance in these tests.
EN ISO 1182
If the product has a thickness equal to or greater than 50 mm, thickness does not have an influence. Where
the product is less than 50 mm thick, so that the test specimen has to be made by combining two or more
layers together, thickness may have an influence.
EN 13823
The thickness of a product will have an influence on the fire performance when tested according to EN 13823.
As the influence of thickness is very different for individual products, it is not possible to give any general rules.
However, it may be possible to group products of similar nature, e.g. wood panels, in order to derive a direct
application rule.
The SBI test equipment has a limit on the thickness of the test specimen of 200 mm. Therefore a test on a test
specimen of 200 mm thickness prepared from a product, according to agreed mounting and fixing rules, is
equally valid for the product of all greater thickness.
EN ISO 11925-2
The thickness of a product will have an influence on the fire performance when tested according to EN ISO
11925-2.
The thickness of the test specimen is limited up to 60 mm in EN ISO 11925-2. Therefore a test on a test
specimen of 60 mm thickness prepared from a product, according to agreed mounting and fixing rules, is
equally valid for the product of all greater thickness.
EN ISO 9239-1
The thickness of a product will have an influence on the fire performance when tested according to EN ISO
9239-1. As the influence of thickness is very different for individual products, it is not possible to give any
general rules. However, it may be possible to group products of similar nature in order to derive a direct
application rule.
Density
EN ISO 1716
The fire performance parameters of this test are not influenced by density.
EN ISO 1182
The density of the product influences the fire performance parameters. As the influence of density is different
for different products, it is not possible to give any general rules. However, for a given product it may be
possible to interpolate between data points from samples of different density.
EN 13823
The density of a product will have an influence on the fire performance when tested according to EN 13823.
As the influence of density is very different for individual products, it is not possible to give any general rules.
However, for a given product it may be possible to interpolate between data points from samples of different
density.
EN ISO 11925-2
The density of a product will have an influence on the fire performance when tested according to EN ISO
11925-2. As the influence of density is very different for individual products, it is not possible to give any
general rules.
EN ISO 9239-1
The density of a product will have an influence on the fire performance when tested according to EN ISO
9239-1. As the influence of density is very different for individual products, it is not possible to give any
general rules.
Colour
EN ISO 1716
Colour itself has no influence on the test result from EN ISO 1716, but the nature and amount of the colouring
substance may have an influence. While no general rules are possible, it may be possible to develop a
relationship based on organic content.

EN ISO 1182
Colour itself has no influence on the test result from EN ISO 1182. If the change of composition of colouring
substance is negligible, the influence is negligible. No other general rules are possible.
EN 13823, EN ISO 11925-2 and EN ISO 9239-1
Colour itself and colouring substance may influence the fire performance of products when tested according to
EN 13823, because a change of colour may change the absorptivity of the product. A product with a dark
surface will in general be heated up faster than a product with a light coloured or shiny surface. If the change
of composition is negligible, the influence is negligible. The nature of the colouring substance may also have
an influence on the fire behaviour. No other general rules are possible.

Surface coating or facing
EN ISO 1182
Coating or facing has no effect as long as the outermost layer of which the coating or facing is part is not a
substantial component as defined in EN 13501-1.
EN ISO 1716, EN 13823, EN ISO 11925-2 and EN ISO 9239-1
The type of coating or facing influences the fire performance parameters of EN ISO 1716, EN 13823 and EN
ISO 11925-2. Because different types of coating or facing have very different behaviour in fire, it is not
possible to give any general rule for direct application of test results fo
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Frequently Asked Questions

CEN/TS 15117:2005 is a technical specification published by the European Committee for Standardization (CEN). Its full title is "Guidance on direct and extended application". This standard covers: This Technical Specification gives guidance for the direct and extended application instructions, in order to fulfil the instructions from the EU Commission to evaluate the reaction to fire performance of products as placed on the market and of its end-use application(s), where relevant.

This Technical Specification gives guidance for the direct and extended application instructions, in order to fulfil the instructions from the EU Commission to evaluate the reaction to fire performance of products as placed on the market and of its end-use application(s), where relevant.

CEN/TS 15117:2005 is classified under the following ICS (International Classification for Standards) categories: 13.220.50 - Fire-resistance of building materials and elements. The ICS classification helps identify the subject area and facilitates finding related standards.

You can purchase CEN/TS 15117:2005 directly from iTeh Standards. The document is available in PDF format and is delivered instantly after payment. Add the standard to your cart and complete the secure checkout process. iTeh Standards is an authorized distributor of CEN standards.

The CEN/TS 15117:2005 standard provides comprehensive guidance on direct and extended application instructions focused on the evaluation of fire performance of products. The standard is pivotal in aligning product specifications with the directives set forth by the EU Commission, ensuring that all products placed on the market meet stringent fire safety requirements. One of the key strengths of this standard is its detailed framework that facilitates manufacturers and regulators in assessing the reaction to fire performance of various products. By addressing both direct application instances and extended applications, this guidance document ensures a thorough understanding of fire safety implications throughout the lifecycle of a product. The emphasis on end-use applications is particularly relevant, as it considers the contextual factors that can impact fire performance, enabling a more nuanced approach to safety evaluations. Furthermore, the relevance of CEN/TS 15117:2005 in today’s market cannot be overstated. As safety regulations become increasingly stringent, adherence to such standards becomes essential for compliance and market acceptance. The standard acts as a benchmark for product safety, fostering confidence among consumers and stakeholders regarding fire performance assessments. Overall, the structure and content of the CEN/TS 15117:2005 standard support significant advancements in fire safety protocols, making it an indispensable resource for manufacturers aiming to ensure that their products not only comply with regulations but also protect public safety effectively.

CEN/TS 15117:2005 표준은 EU 위원회에서 요구하는 화재 반응 성능 평가를 위한 지침을 제공하는 기술 사양서로, 직접 적용 및 확장 적용에 대한 지침을 제공합니다. 이 표준의 범위는 시장에 출시된 제품의 화재 반응 성능을 평가하고 해당 제품의 최종 사용 응용 프로그램과 관련된 사항을 포함합니다. 이 표준의 강점은 명확한 지침을 통해 기업들이 제품의 화재 안전성을 검증할 수 있도록 하고, 이를 통해 소비자와 사회의 안전을 보장하는 데 기여한다는 점입니다. 또한, CEN/TS 15117:2005는 다양한 건축 자재의 테스트를 위한 공통된 기준을 제공하여, 제조업체와 규제 기관 간의 의사소통을 원활하게 해줍니다. CEN/TS 15117:2005는 화재 반응 시험 및 관련 응용 프로그램의 표준화된 접근 방식을 통해 제품의 시장 경쟁력을 높이는 데 필수적인 역할을 하며, 이는 제품의 안전성과 신뢰성을 높이는 데 기여합니다. 유럽 연합이 요구하는 기준을 충족하며, 각국의 법적 요구 사항에 부합하여 글로벌 시장에서도 사용될 수 있는 유용한 문서입니다. 따라서 CEN/TS 15117:2005는 화재 안전 관련 제품의 직간접 적용에 대한 실질적이고 유용한 가이드를 제공하는 중요한 표준으로, 소비자와 제조업체 모두에게 필수적인 참고 사항이 될 것입니다.

CEN/TS 15117:2005は、EU委員会からの指示に従い、市場に出される製品の火災反応性能を評価するための直接的および拡張的な適用指針を提供します。この技術仕様書は、特に製品の最終用途に関連する部分において、その適用指示を明確化することを目的としています。 この標準の強みは、火災性能の評価に関する具体的かつ実用的なガイダンスを提供している点です。特に、製品が市場に出る前に実施すべきテストや評価のプロセスについて詳細に文書化されており、メーカーや関係者がその要件を理解し、遵守するための助けとなります。また、EUの基準に基づいて、各国での適用を考慮した内容も含まれており、国際的な取引においても、新たな枠組みを支持する役割を果たします。 さらに、CEN/TS 15117の関連性は、特に安全基準の向上が求められる現代社会において一層高まっています。火災による危険性を低減するための知見が整理されており、業界全体の製品の安全性向上に寄与する重要なドキュメントです。 このように、CEN/TS 15117:2005は、直接的および拡張的な適用に関する優れたガイダンスを提供し、火災反応性能の評価プロセスを明確化することにより、業界の標準化を推進しています。

Die CEN/TS 15117:2005 ist eine technische Spezifikation, die gezielte Anleitungen zur direkten und erweiterten Anwendung bietet. Diese Norm ist von großer Relevanz, da sie den Anforderungen der EU-Kommission entspricht, die die Evaluierung der Brandverhaltenseigenschaften von Produkten reguliert, die auf dem Markt angeboten werden. Die Norm behandelt sowohl die Produkte selbst als auch deren Endanwendungen, wo dies erforderlich ist. Ein wesentlicher Stärke der CEN/TS 15117:2005 liegt in ihrer umfassenden Ausrichtung auf die praktischen Anwendungsrichtlinien. Sie ermöglicht es Herstellern und Fachleuten, die Leistung ihrer Produkte im Hinblick auf das Brandverhalten konsistent und nachvollziehbar zu bewerten. Durch die Bereitstellung von klaren Verfahren zur direkten und erweiterten Anwendung werden Unsicherheiten bei der Ingenieursarbeit minimiert und die Einhaltung von Sicherheitsstandards gefördert. Zudem unterstützt die Norm die Harmonisierung innerhalb des europäischen Marktes, indem sie einheitliche Kriterien schafft, die für die Bewertung und Klassifizierung von Brandschutzmaßnahmen relevant sind. Diese Standardisierung ist von entscheidender Bedeutung, um sicherzustellen, dass alle Produkte, die in der EU vertrieben werden, den gleichen Sicherheitsanforderungen genügen. Insgesamt stellt die CEN/TS 15117:2005 eine wesentliche Ressource dar, die nicht nur die Sicherheit von Produkten verbessert, sondern auch die Compliance mit EU-Vorschriften erleichtert. Die Norm ist somit ein unverzichtbares Werkzeug für alle Akteure in der Wirtschaft, die im Bereich des Brandschutzes tätig sind.

La norme CEN/TS 15117:2005 constitue un document technique essentiel qui fournit des lignes directrices claires sur les instructions d'application directe et étendue. Son champ d'application s'étend à l'évaluation de la performance au feu des produits mis sur le marché et de leurs applications finales, répondant ainsi aux exigences formulées par la Commission européenne. L'un des points forts de cette norme est sa capacité à garantir une approche cohérente et harmonisée dans l'évaluation de la réaction au feu des matériaux. En proposant des instructions précises, la norme facilite l'interprétation et l'application des réglementations désormais actuelles sur la sécurité incendie, favorisant ainsi la conformité des produits aux exigences réglementaires. La pertinence de CEN/TS 15117:2005 est manifeste dans le contexte actuel où la sécurité des produits est devenue une priorité majeure pour les fabricants et les régulateurs. En intégrant des recommandations sur l'application directe et étendue, la norme permet aux entreprises de mieux comprendre les méthodes d'évaluation et d'optimiser le développement de leurs produits en matière de performance au feu. En résumé, CEN/TS 15117:2005 se positionne comme une référence incontournable pour tous les acteurs de l'industrie concernés par la réglementation sur la réaction au feu des produits, offrant des orientations pratiques et adaptées aux besoins du marché.

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This document is applicable to hinged and pivoted doors, doorsets and door assemblies with glass based leaves. Throughout this document the term “doorset” will be used to cover doors, doorsets and door assemblies. It prescribes the methodology for extending the application of test results obtained from fire resistance test(s) conducted in accordance with EN 1634-1 and/or EN 1634-3 and/or EN 1191.
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This document specifies the procedure for classification of the resistance to fire performance of construction products and building elements used as components of building service installations, using data from fire resistance tests which are within the direct field of application of the relevant test method. Classification on the basis of extended application of test results is also included in the scope of this document.
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Subject to the completion of the appropriate test or tests, the extended application may cover all or some of the following examples:
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This method of test is only applicable to fire resistant ventilation ducts (same construction) with the following classification according to EN 13501-3:
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-   with integrity (E) and insulation (I) criteria equal to or higher than the intended classification for the smoke extraction duct.
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This test method is suitable for ducts constructed from non-combustible materials (class A1 and A2-s1, d0 according to EN 13501-1).
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EN 1366-9:2024(Main)
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This part of EN 1366 specifies a test method for determining the fire resistance of smoke extraction ducts that are used for single compartment applications only. In such applications, the smoke extraction system is only intended to function up to flashover (typically 600 °C).
This method of test is only suitable for ducts constructed from non-combustible materials (class A1 and A2-s1, d0 according to EN 13501-1).
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EN 1366-10:2022+A1:2024(Main)
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