ISO/DIS 17431

DRAFT INTERNATIONAL STANDARD ISO/DIS 17431
ISO/TC 92/SC 1 Secretariat: BSI
Voting begins on: Voting terminates on:
2003-09-04 2004-02-04

INTERNATIONAL ORGANIZATION FOR STANDARDIZATION • МЕЖДУНАРОДНАЯ ОРГАНИЗАЦИЯ ПО СТАНДАРТИЗАЦИИ • ORGANISATION INTERNATIONALE DE NORMALISATION

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Foreword.......................................................................................................................................................v

Introduction..................................................................................................................................................vi

1 Scope................................................................................................................................................1

2 Normative references.......................................................................................................................1

3 Definitions ........................................................................................................................................1

4 Principle............................................................................................................................................2

5 Combustion chamber.......................................................................................................................2

5.1 Dimensions.......................................................................................................................................2

5.2 Front panel .......................................................................................................................................2

5.3 Material of combustion chamber.....................................................................................................2

5.4 Installation........................................................................................................................................2

6 Ignition source .................................................................................................................................4

6.1 Design of ignition source.................................................................................................................4

6.2 Fuel ...................................................................................................................................................4

7 Measurement at the opening of the combustion chamber.............................................................4

7.1 Gas analyser.....................................................................................................................................4

7.1.1 Sampling...........................................................................................................................................4

7.1.2 Carbon monoxide.............................................................................................................................4

7.2 Gas temperature...............................................................................................................................4

8 Hood and exhaust duct....................................................................................................................4

9 Instrumentation for measurement of gas in the exhaust duct .......................................................5

9.1 Volume flow rate...............................................................................................................................5

9.2 Gas analyser.....................................................................................................................................5

9.2.1 Sampling line....................................................................................................................................5

9.2.2 Oxygen..............................................................................................................................................5

9.2.3 Carbon monoxide and carbon dioxide............................................................................................5

10 System performance........................................................................................................................5

10.1 Calibration ........................................................................................................................................5

10.2 System response..............................................................................................................................6

10.3 Precision...........................................................................................................................................6

11 Preparation of specimen..................................................................................................................6

11.1 Dimensions.......................................................................................................................................6

11.2 Board type products ........................................................................................................................6

11.3 Thin products or thermoplastic products .......................................................................................7

11.4 Mounting to steel panel....................................................................................................................7

11.5 Conditioning.....................................................................................................................................7

11.6 Assembling into combustion chamber ...........................................................................................7

12 Testing..............................................................................................................................................8

12.1 Initial conditions...............................................................................................................................8

12.2 Test procedures ...............................................................................................................................8

13 Test report ........................................................................................................................................9

Annex A (informative) Instrumentation of combustion chamber ............................................................10

Annex B (informative) Recommended ignition source ............................................................................16

Annex C (informative) Preparation of specimen ......................................................................................18

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ISO 17431 was prepared by Technical Committee ISO/TC 92, Fire safety, Subcommittee SC 1, Fire

This test method is intended to describe the fire behaviour of a product under controlled laboratory

The test method may be used as part of a fire hazard assessment which takes into account all of the

factors which are pertinent to an assessment of the fire hazard of a particular and use.

WARNING — So that suitable precautions can be taken to safeguard health, the attention of all

concerned in fire tests is drawn to the possibility that toxic or harmful gases can be evolved

The test procedures involve high temperatures and combustion processes from ignition to a

fully developed fire. Therefore, hazards can exist for burns, ignition of extraneous objects or

clothing. The operators should use protective clothing, e.g. helmet, face-shield and equipment

This International Standard specifies an intermediate-scale test method that simulates a fire that

under well-ventilated conditions starts in a corner of a small room with a single doorway until the room

The method is primarily intended to evaluate the contribution to toxic hazard in, and potential for fire

spread to, evacuation routes connected to the room of origin in which surface products are installed.

The method is especially suitable for products with which a full-scale room test has to be terminated

before the full involvement of the room with fire because of the occurrence of flashover or any other

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

ISO 554:1976, Standard atmospheres for conditioning and/or testing — Specifications

ISO TR 3814: 1989, Test for measuring "reaction to fire" of building materials — Their development

ISO 14934-1:2002, Fire tests — Calibration and use of heat flux meter — Part 1: General principle

For the purpose of this international standard, the definitions given in ISO 13943 and the following

any part of a compartment that constitutes an exposed surface on the interior wall, ceiling and/or floor

An indication of the toxic hazard in an evacuation route connected to the room of fire origin is

provided by the measurement of certain toxic gas at the doorway of the model box.

The potential for fire spread to objects outside the room of fire origin is evaluated by the heat release

The combustion chamber (see Figure 1) shall consist of three walls, a ceiling and a floor connected at

right angles. The inside dimension of the combustion chamber shall have the following dimensions:

A front wall panel with an opening of the following dimensions (see Figure 1) shall be attached to the

opening of the combustion chamber in prior to each test. The opening shall be at the centre of the

The combustion chamber shall be constructed of non-combustible material with a density of

The combustion chamber shall be placed in an essentially draught free space, large enough to ensure

that there is no influence on the test fire. Hanging the combustion chamber can help measurement of

mass loss and accurate collection of combustion products. An example of a design for hanging

Figure 1 — Combustion chamber with specimen panels, front wall panel and ignition source

The ignition source shall be a propane gas burner having a 0,17 m × 0,17 m square top surface layer

of a porous, inert material, e.g. sand. The construction shall be such that an even gas flow is achieved

over the entire opening area. It is recommended to use the gas burner specified in Annex B.

WARNING — All parts and equipment of the burner system such as tubes, couplings, flow

meters, etc. shall be of approved type for propane. The installation shall be performed in

The burner should, for reasons of safety, be equipped with a remote control ignition device,

for example a pilot flame, electric spark or a glow wire. There should be a warning system for

The fuel for the burner shall be of industrial grade propane (95 % purity). The net heat of combustion

of the fuel shall be 40 kW during test period. The fuel gas flow rate to the burner shall be measured

with an accuracy of at least ± 3 % and shall be controlled within ± 5 % of the prescribed value of heat

This clause specifies minimum requirement for the instrumentation attached to the opening of the

The gas shall be sampled at the opening of the combustion chamber at a position where the

combustion products flow out and any ambient air coming into the chamber shall not be sampled. The

sampling line shall be made of an inert material that will not influence the concentration of the gas

The gas concentration shall be measured using an analyser having an accuracy of at least ± 0,02 %

by volume for carbon monoxide. The analyser shall have a time constant not exceeding 3 s.

Gas temperature in the immediate vicinity of the gas-sampling probe shall be measured by a

The system for collecting the combustion products shall have a capacity and be designed in such a

way that all of the combustion products leaving the combustion chamber through the opening during a

test are collected. The system shall not disturb the fire-induced flow in the opening. The exhaust

capacity shall be at least 2,0 (m s ) at normal pressure and temperature of 25 °C. An example of the

This clause specifies minimum requirements for the instrumentation for the measurement of the gas in

the exhaust duct. Additional information and designs can be found in ISO 9705 Annex D and Annex E.

The volume flow rate in the exhaust duct shall be measured to an accuracy of at least ± 5 %. The

response time to a stepwise change of the duct flow rate shall be a maximum of 1 s at 90 % of the

The gas in the duct shall be sampled at a position where the combustion products are uniformly mixed.

The sampling line shall be made of an inert material which does not influence the concentration of the

The oxygen consumption shall be measured with an accuracy of at least ± 0,01 % by volume. The

oxygen analyser shall have a time constant not exceeding 3 s. (See ISO 9705 Annex D)

The gas species shall be measured using analysers having an accuracy of at least + 0,1 % by volume

for carbon dioxide and 0,02 % by volume for carbon monoxide. The analyser shall have a time

A calibration test shall be performed prior to each test or one set of tests conducted continually.

The calibration shall be performed with the burner heat output given in Table 1, with the burner