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SIST ISO 9772:2015

Cellular plastics - Determination of horizontal burning characteristics of small specimens subjected to a small flame

Cellular plastics - Determination of horizontal burning characteristics of small specimens subjected to a small flame

ISO 9772:2012 specifies a small-scale laboratory screening procedure for comparing the relative burning characteristics of horizontally oriented, small cellular plastic specimens, having a density less than 250 kg/m3, when exposed to an ignition source.
This method of test is intended for quality assurance and limited product evaluation of cellular plastic materials under controlled laboratory conditions, and is not intended to assess the fire behaviour of e.g. building materials or furnishings under actual fire conditions.
An optional classification system is described in an annex. It is intended for the pre-selection of cellular plastic materials for products, including the determination of the ranges of material parameters that give the same classification.

Plastiques alvéolaires - Détermination des caractéristiques de combustion de petites éprouvettes en position horizontale, soumises à une petite flamme

Penjeni polimerni materiali - Ugotavljanje gorilnih lastnosti majhnih preskušancev, izpostavljenih majhnemu plamenu, s horizontalno metodo

1.1 Ta mednarodni standard določa manjše postopke presejanja v laboratoriju za primerjavo relativnih gorilnih lastnosti vodoravnih in majhnih preskušancev iz penjenih polimernih materialov z gostoto manj kot 250 kg⋅m−3, določeno v skladu z ISO 845, kadar so ti preskušanci izpostavljeni viru vžiga z majhnim plamenom.
OPOMBA Prilagodljivi penjeni polimerni materiali in gume so obravnavani v drugem mednarodnem standardu: ISO 3582[2].
1.2 Ta metoda preskušanja je namenjena zagotavljanju kakovosti in omejenemu vrednotenju proizvodov iz penjenih polimernih materialov pod nadzorovanimi laboratorijskimi pogoji ter ni namenjena ocenjevanju, kako se npr. gradbeni material ali oprema obnaša v požaru pod dejanskimi pogoji požara.
1.3 Neobvezni sistem razvrščanja, opisan v dodatku A, je namenjen predhodni izbiri penjenih polimernih materialov za izdelke, vključno z določanjem obsegov parametrov materiala, ki zagotavljajo enako razvrstitev (glej točko 6.1).

General Information

Status
Withdrawn
Publication Date
19-Feb-2015
Withdrawal Date
03-Feb-2022
ICS
13.220.40 - Ignitability and burning behaviour of materials and products
83.100 - Cellular materials
Technical Committee
IPMA - Polimer materials and products
Current Stage
9900 - Withdrawal (Adopted Project)
Start Date
04-Feb-2022
Due Date
27-Feb-2022
Completion Date
04-Feb-2022
Ref Project
ISO 9772:2012 - Cellular plastics — Determination of horizontal burning characteristics of small specimens subjected to a small flame

Relations

Replaces
SIST ISO 9772:2022 - Cellular plastics - Determination of horizontal burning characteristics of small specimens subjected to a small flame
Effective Date
23-Apr-2020
Replaces
SIST ISO 9772:1996 - Cellular plastics -- Determination of horizontal burning characteristics of small specimens subjected to a small flame
Effective Date
01-Mar-2015

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Standards Content (Sample)


SLOVENSKI STANDARD
01-marec-2015
1DGRPHãþD
SIST ISO 9772:1996
Penjeni polimerni materiali - Ugotavljanje gorilnih lastnosti majhnih preskušancev,
izpostavljenih majhnemu plamenu, s horizontalno metodo
Cellular plastics - Determination of horizontal burning characteristics of small specimens
subjected to a small flame
Plastiques alvéolaires - Détermination des caractéristiques de combustion de petites
éprouvettes en position horizontale, soumises à une petite flamme
Ta slovenski standard je istoveten z: ISO 9772:2012
ICS:
13.220.40 Sposobnost vžiga in Ignitability and burning
obnašanje materialov in behaviour of materials and
proizvodov pri gorenju products
83.100 Penjeni polimeri Cellular materials
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

INTERNATIONAL ISO
STANDARD 9772
Third edition
2012-09-01
Cellular plastics — Determination of
horizontal burning characteristics of small
specimens subjected to a small flame
Plastiques alvéolaires — Détermination des caractéristiques de
combustion de petites éprouvettes en position horizontale, soumises à
une petite flamme
Reference number
©
ISO 2012
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form or by any means,
electronic or mechanical, including photocopying and microfilm, without permission in writing from either ISO at the address below or ISO’s
member body in the country of the requester.
ISO copyright office
Case postale 56 • CH-1211 Geneva 20
Tel. + 41 22 749 01 11
Fax + 41 22 749 09 47
E-mail copyright@iso.org
Web www.iso.org
Published in Switzerland
ii © ISO 2012 – All rights reserved

Contents Page
Foreword .iv
Introduction . v
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 1
4 Significance of test . 2
5 Apparatus . 2
6 Specimens . 7
6.1 Extended application of test results . 7
6.2 Preparation of specimens . 8
7 Conditioning . 8
7.1 Specimens . 8
7.2 Cotton indicator . 9
8 Test procedure . 9
8.1 Adjustment of flame . 9
8.2 Adjustment of specimen support .10
8.3 Positioning of cotton indicator . 11
8.4 Positioning of specimen . 11
8.5 Burning procedure . 11
8.6 Measurements . 11
8.7 Preparation for the next test .12
9 Calculations .12
10 Precision .12
11 Test report .12
Annex A (informative) Classification system .14
Annex B (informative) Precision .16
Bibliography .17
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies
(ISO member bodies). The work of preparing International Standards is normally carried out through ISO
technical committees. Each member body interested in a subject for which a technical committee has been
established has the right to be represented on that committee. International organizations, governmental and
non-governmental, in liaison with ISO, also take part in the work. ISO collaborates closely with the International
Electrotechnical Commission (IEC) on all matters of electrotechnical standardization.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of technical committees is to prepare International Standards. Draft International Standards
adopted by the technical committees are circulated to the member bodies for voting. Publication as an
International Standard requires approval by at least 75 % of the member bodies casting a vote.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. ISO shall not be held responsible for identifying any or all such patent rights.
ISO 9772 was prepared by Technical Committee ISO/TC 61, Plastics, Subcommittee SC 4, Burning behaviour.
This third edition cancels and replaces the second edition (ISO 9772:2001), which has been technically revised.
It also incorporates the Amendment ISO 9772:2001/Amd.1:2003.
iv © ISO 2012 – All rights reserved

Introduction
Cellular plastics are widely used in products for packaging, building, housing, industry and transport, in various
applications. The burning behaviour of cellular plastics is a concern for the fire safety of these products. This
International Standard gives a method for the determination of the burning behaviour of cellular plastics using
a small flame source.
The burning behaviour of cellular plastics is influenced by the test specimen orientation (vertical or horizontal).
This method of test evaluates specimens which are oriented horizontally.
The method described is also intended as a pre-selection test for materials used for components of devices
and appliances. The final acceptance of the material would be dependent upon its use in complete equipment
that conforms with the standards applicable to such equipment.
It should be noted that the test results obtained by the test specified in this International Standard alone cannot
represent all the aspects of the fire hazard of cellular plastics in end-use conditions.
INTERNATIONAL STANDARD ISO 9772:2012(E)
Cellular plastics — Determination of horizontal burning
characteristics of small specimens subjected to a small flame
1 Scope
1.1 This International Standard specifies a small-scale laboratory screening procedure for comparing the
relative burning characteristics of horizontally oriented, small cellular plastic specimens having a density less
−3
than 250 kg⋅m determined in accordance with ISO 845, when exposed to a small-flame ignition source.
[2]
NOTE Another International Standard exists covering flexible cellular plastic and cellular rubber: ISO 3582 .
1.2 This method of test is intended for quality assurance and limited product evaluation of cellular plastic
materials under controlled laboratory conditions, and is not intended to assess the fire behaviour of e.g. building
materials or furnishings under actual fire conditions.
1.3 The optional classification system described in Annex A is intended for the pre-selection of cellular plastic
materials for products, including the determination of the ranges of material parameters that give the same
classification (see 6.1).
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.
ISO 845, Cellular plastics and rubbers — Determination of apparent density
ISO 1923, Cellular plastics and rubbers — Determination of linear dimensions
ISO 10093, Plastics — Fire tests — Standard ignition sources
ISO 13943, Fire safety — Vocabulary
3 Terms and definitions
For the purposes of this International Standard, the terms and definitions given in ISO 13943 and the following apply.
3.1
afterflame time
length of time for which a material continues to flame, under specified test conditions, after the ignition source
has been removed
3.2
afterglow time
length of time for which a material continues to glow, under specified test conditions, after the ignition source
has been removed and/or extinguishment of flame
3.3
extended application of test results
process of predicting a test result, on the basis of one or more existing test results obtained by the same test,
for a product for which a property and/or the intended end-use application(s) are subject to variation
4 Significance of test
4.1 Tests conducted on a material under the conditions specified can be of considerable value when comparing
the horizontal burning characteristics of different materials, controlling manufacturing processes or assessing
any changes in formulation or treatment prior to use.
4.2 Assessment of fire hazard requires consideration of factors such as fuel contribution, intensity of burning
(rate of heat release) and products of combustion, as well as environmental factors such as intensity of source,
orientation of exposed material and ventilation conditions.
4.3 Horizontal burning characteristics, as measured by this test procedure, might be affected by factors such
as density, any anisotropy of the cellular material, its melting characteristics, its colour and its thickness.
4.4 Certain materials might shrink from the applied flame without igniting. In this event, the test results are not
valid, and additional test specimens will be required to obtain 10 valid test results. If this proves impossible due
to non-ignition of all the specimens, then this test is not suitable for these materials.
4.5 The horizontal burning characteristics of some cellular plastic materials might change with time, and tests
are therefore conducted before and after heat ageing.
5 Apparatus
5.1 Laboratory fume hood, having an inside volume of at least 0,5 m . The chamber shall permit observation
of tests in progress and shall be draught free whilst allowing normal thermal circulation of air past the test
specimen during burning. The inside surfaces of the chamber shall be of a dark colour. When a light meter,
facing towards the rear of the chamber, is positioned in place of the test specimen, the recorded light level shall
be less than 20 lux.
For safety and convenience, this enclosure (which can be completely closed) shall be fitted with an extraction
device, such as an exhaust fan, to remove products of combustion that might be toxic. The extraction device
shall be turned off during the test and turned on again immediately after the test to remove the fire effluents. A
positive closing damper might be needed.
NOTE The amount of oxygen available to support combustion is naturally important for the conduct of these flame
tests. For tests conducted by this method when burning times are protracted, chamber sizes greater than 0,5 m might be
needed to provide reproducible results.
5.2 P/PF2 laboratory burner, as specified in ISO 10093, having a barrel length of (100 ± 10) mm and an
internal diameter of (9,5 ± 0,3) mm. The barrel shall not be equipped with an end attachment, such as a stabilizer.
5.3 Burner wing top, having an opening of internal length (
...


INTERNATIONAL ISO
STANDARD 9772
Third edition
2012-09-01
Cellular plastics — Determination of
horizontal burning characteristics of small
specimens subjected to a small flame
Plastiques alvéolaires — Détermination des caractéristiques de
combustion de petites éprouvettes en position horizontale, soumises à
une petite flamme
Reference number
©
ISO 2012
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form or by any means,
electronic or mechanical, including photocopying and microfilm, without permission in writing from either ISO at the address below or ISO’s
member body in the country of the requester.
ISO copyright office
Case postale 56 • CH-1211 Geneva 20
Tel. + 41 22 749 01 11
Fax + 41 22 749 09 47
E-mail copyright@iso.org
Web www.iso.org
Published in Switzerland
ii © ISO 2012 – All rights reserved

Contents Page
Foreword .iv
Introduction . v
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 1
4 Significance of test . 2
5 Apparatus . 2
6 Specimens . 7
6.1 Extended application of test results . 7
6.2 Preparation of specimens . 8
7 Conditioning . 8
7.1 Specimens . 8
7.2 Cotton indicator . 9
8 Test procedure . 9
8.1 Adjustment of flame . 9
8.2 Adjustment of specimen support .10
8.3 Positioning of cotton indicator . 11
8.4 Positioning of specimen . 11
8.5 Burning procedure . 11
8.6 Measurements . 11
8.7 Preparation for the next test .12
9 Calculations .12
10 Precision .12
11 Test report .12
Annex A (informative) Classification system .14
Annex B (informative) Precision .16
Bibliography .17
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies
(ISO member bodies). The work of preparing International Standards is normally carried out through ISO
technical committees. Each member body interested in a subject for which a technical committee has been
established has the right to be represented on that committee. International organizations, governmental and
non-governmental, in liaison with ISO, also take part in the work. ISO collaborates closely with the International
Electrotechnical Commission (IEC) on all matters of electrotechnical standardization.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of technical committees is to prepare International Standards. Draft International Standards
adopted by the technical committees are circulated to the member bodies for voting. Publication as an
International Standard requires approval by at least 75 % of the member bodies casting a vote.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. ISO shall not be held responsible for identifying any or all such patent rights.
ISO 9772 was prepared by Technical Committee ISO/TC 61, Plastics, Subcommittee SC 4, Burning behaviour.
This third edition cancels and replaces the second edition (ISO 9772:2001), which has been technically revised.
It also incorporates the Amendment ISO 9772:2001/Amd.1:2003.
iv © ISO 2012 – All rights reserved

Introduction
Cellular plastics are widely used in products for packaging, building, housing, industry and transport, in various
applications. The burning behaviour of cellular plastics is a concern for the fire safety of these products. This
International Standard gives a method for the determination of the burning behaviour of cellular plastics using
a small flame source.
The burning behaviour of cellular plastics is influenced by the test specimen orientation (vertical or horizontal).
This method of test evaluates specimens which are oriented horizontally.
The method described is also intended as a pre-selection test for materials used for components of devices
and appliances. The final acceptance of the material would be dependent upon its use in complete equipment
that conforms with the standards applicable to such equipment.
It should be noted that the test results obtained by the test specified in this International Standard alone cannot
represent all the aspects of the fire hazard of cellular plastics in end-use conditions.
INTERNATIONAL STANDARD ISO 9772:2012(E)
Cellular plastics — Determination of horizontal burning
characteristics of small specimens subjected to a small flame
1 Scope
1.1 This International Standard specifies a small-scale laboratory screening procedure for comparing the
relative burning characteristics of horizontally oriented, small cellular plastic specimens having a density less
−3
than 250 kg⋅m determined in accordance with ISO 845, when exposed to a small-flame ignition source.
[2]
NOTE Another International Standard exists covering flexible cellular plastic and cellular rubber: ISO 3582 .
1.2 This method of test is intended for quality assurance and limited product evaluation of cellular plastic
materials under controlled laboratory conditions, and is not intended to assess the fire behaviour of e.g. building
materials or furnishings under actual fire conditions.
1.3 The optional classification system described in Annex A is intended for the pre-selection of cellular plastic
materials for products, including the determination of the ranges of material parameters that give the same
classification (see 6.1).
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.
ISO 845, Cellular plastics and rubbers — Determination of apparent density
ISO 1923, Cellular plastics and rubbers — Determination of linear dimensions
ISO 10093, Plastics — Fire tests — Standard ignition sources
ISO 13943, Fire safety — Vocabulary
3 Terms and definitions
For the purposes of this International Standard, the terms and definitions given in ISO 13943 and the following apply.
3.1
afterflame time
length of time for which a material continues to flame, under specified test conditions, after the ignition source
has been removed
3.2
afterglow time
length of time for which a material continues to glow, under specified test conditions, after the ignition source
has been removed and/or extinguishment of flame
3.3
extended application of test results
process of predicting a test result, on the basis of one or more existing test results obtained by the same test,
for a product for which a property and/or the intended end-use application(s) are subject to variation
4 Significance of test
4.1 Tests conducted on a material under the conditions specified can be of considerable value when comparing
the horizontal burning characteristics of different materials, controlling manufacturing processes or assessing
any changes in formulation or treatment prior to use.
4.2 Assessment of fire hazard requires consideration of factors such as fuel contribution, intensity of burning
(rate of heat release) and products of combustion, as well as environmental factors such as intensity of source,
orientation of exposed material and ventilation conditions.
4.3 Horizontal burning characteristics, as measured by this test procedure, might be affected by factors such
as density, any anisotropy of the cellular material, its melting characteristics, its colour and its thickness.
4.4 Certain materials might shrink from the applied flame without igniting. In this event, the test results are not
valid, and additional test specimens will be required to obtain 10 valid test results. If this proves impossible due
to non-ignition of all the specimens, then this test is not suitable for these materials.
4.5 The horizontal burning characteristics of some cellular plastic materials might change with time, and tests
are therefore conducted before and after heat ageing.
5 Apparatus
5.1 Laboratory fume hood, having an inside volume of at least 0,5 m . The chamber shall permit observation
of tests in progress and shall be draught free whilst allowing normal thermal circulation of air past the test
specimen during burning. The inside surfaces of the chamber shall be of a dark colour. When a light meter,
facing towards the rear of the chamber, is positioned in place of the test specimen, the recorded light level shall
be less than 20 lux.
For safety and convenience, this enclosure (which can be completely closed) shall be fitted with an extraction
device, such as an exhaust fan, to remove products of combustion that might be toxic. The extraction device
shall be turned off during the test and turned on again immediately after the test to remove the fire effluents. A
positive closing damper might be needed.
NOTE The amount of oxygen available to support combustion is naturally important for the conduct of these flame
tests. For tests conducted by this method when burning times are protracted, chamber sizes greater than 0,5 m might be
needed to provide reproducible results.
5.2 P/PF2 laboratory burner, as specified in ISO 10093, having a barrel length of (100 ± 10) mm and an
internal diameter of (9,5 ± 0,3) mm. The barrel shall not be equipped with an end attachment, such as a stabilizer.
5.3 Burner wing top, having an opening of internal length (48 ± 1) mm and internal width (1,3 ± 0,05) mm
(see Figure 1).
To ensure the wing top opening is uniform in width, a (1,3 ± 0,05) mm steel wire or spacer may be slid along its length.
5.4 Support gauze, approximately 215 mm long by 75 mm wide, having 13 mm of its length bent to form
a right angle at one end as shown in Figure 2. It shall consist of (6,4 ± 0,5) mm mesh gauze constructed of
(0,85 ± 0,10) mm diameter stainless steel or low carbon steel wire. A different support gauze is necessary for
each specimen unless means are provided to burn off any residue from a prior test.
5.5 Support-gauze holder, consisting of two laboratory ring stands with clamps adjustable to the desired
angles and heights. The support-gauze holder shall be constructed from aluminium or steel and shall satisfy the
following conditions:
— the long axis of the gauze is maintained to within 1° of the horizontal;
2 © ISO 2012 – All rights reserved

— the nearest end of the specimen is (13 ± 1) mm above the burner wing top (see Figures 3 and 4);
— the space both above and below the specimen is not obstructed;
— a means is provided for positioning the burne
...


МЕЖДУНАРОДНЫЙ ISO
СТАНДАРТ 9772
Третье издание
2012-09-01
Пластмассы ячеистые. Определение
характеристик горения мелких
образцов, ориентированных в
горизонтальном положении, под
действием небольшого пламени
Cellular plastics — Determination of horizontal burning characteristics
of small specimens subjected to a small flame

Ответственность за подготовку русской версии несёт GOST R
(Российская Федерация) в соответствии со статьёй 18.1 Устава ISO
Ссылочный номер
©
ISO 2012
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Web www.iso.org
Опубликовано в Швейцарии
ii © ISO 2012– Все права сохраняются

Содержание Страница
Предисловие .iv
Введение .v
1  Область применения .1
2  Нормативные ссылки .1
3  Термины и определения .1
4  Значение испытаний.2
5  Аппаратура.2
6  Образцы для испытания.7
6.1  Расширенное применение результатов испытаний.7
6.2  Подготовка образцов.8
7  Кондиционирование образцов .8
7.1  Образцы .8
7.2  Ватный индикатор.9
8  Проведение испытания.9
8.1  Регулировка пламени .9
8.3  Расположение ватного индикатора .11
8.4  Расположение образца.11
8.5  Процедура горения .11
8.6  Измерения.11
8.7  Подготовка к следующему испытанию.12
9  Расчеты .12
10  Прецизионность.12
11  Протокол испытания.12
Приложение А (информативное) Система классификации .14
Приложение В (информативное) Прецизионность.16
Библиография.17

Предисловие
Международная организация по стандартизации (ISO) является всемирной федерацией национальных
организаций по стандартизации (комитетов-членов ISO). Разработка международных стандартов
обычно осуществляется техническими комитетами ISO. Каждый комитет-член, заинтересованный в
деятельности, для которой был создан технический комитет, имеет право быть представленным в этом
комитете. Международные правительственные и неправительственные организации, имеющие связи с
ISO, также принимают участие в работах. Что касается стандартизации в области электротехники, то
ISO работает в тесном сотрудничестве с Международной электротехнической комиссией (IEC).
Проекты международных стандартов разрабатываются в соответствии с правилами Директив ISO/IEC,
Часть 2.
Основной задачей технических комитетов является подготовка международных стандартов. Проекты
международных стандартов, принятые техническими комитетами, рассылаются комитетам-членам на
голосование. Их опубликование в качестве международных стандартов требует одобрения не менее
75 % комитетов-членов, принимающих участие в голосовании.
Следует иметь в виду, что некоторые элементы настоящего международного стандарта могут быть
объектом патентных прав. Международная организация по стандартизации не может нести
ответственность за идентификацию какого-либо одного или всех патентных прав.
Международный стандарт ISO 9772 был подготовлен Техническим комитетом ISO/TC 61, Пластмассы
Подкомитетом SC 4, Поведение при горении.
Настоящее третье издание отменяет и заменяет второе издание (ISO 9772:2001) после технического
пересмотра. Оно также включает Изменение к ISO 9772:2001/Amd1:2003.
iv © ISO 2001 – Все права сохраняются

Введение
Ячеистые пластмассы широко используются для упаковывания, в строительстве зданий, в быту, в
промышленности и на транспорте в различных вариантах. Поведение при горении ячеистых пластмасс
касается безопасности изделий из этого материала. В настоящем международном стандарте дается
метод определения горючести ячеистых пластмасс с помощью источника небольшого пламени.
На горючесть ячеистых пластмасс влияет ориентация испытуемого образца (вертикальная или
горизонтальная). Данный метод оценивает образцы, ориентированные горизонтально.
Описанный метод предназначен для предварительного выбора материалов, используемых как
компоненты устройств и бытовых приборов. Окончательная приемка материала будет зависеть от
использования его в укомплектованном оборудовании, которое соответствует стандартам,
применяемым к рассматриваемому оборудованию.
Следует отметить, что полученные результаты испытаний, установленных данным международным
стандартом, в отдельности не могут представлять все аспекты опасности от загорания ячеистых
пластмасс в условиях конечного применения.
МЕЖДУНАРОДНЫЙ СТАНДАРТ ISO 9772:2012(R)

Пластмассы ячеистые. Определение характеристик горения
мелких образцов, ориентированных в горизонтальном
положении, под действием небольшого пламени
1 Область применения
1.1 Настоящий международный стандарт устанавливает лабораторный маломасштабный метод
отбора для сравнения характеристик горения ориентированных горизонтально мелких образцов
-3
ячеистой пластмассы, имеющих плотность меньше 250 кг⋅м , определенных в соответствии с ISO 845,
под воздействием источника воспламенения.
ПРИМЕЧАНИЕ Существуют другой стандарт, охватывающий эластичные ячеистые пластмассы и ячеистые

[2]
резины: ISO 3582:2000
1.2 Данный метод предназначен для обеспечения качества и ограниченной оценки продукции из
пластмассовых ячеистых материалов в контролируемых лабораторных условиях и не предназначен
для оценки поведения при горении, например, строительных материалов или мебели в условиях
реального пожара.
1.3 Дополнительная система классификации, описанная в Приложении А, предназначена для
предварительного выбора ячеистых пластмассовых материалов для изделий, включая определение
диапазонов параметров материалов, в зависимости от их классификации.
2 Нормативные ссылки
Следующие документы являются обязательными при использовании данного стандарта. Для
датированных документов, допускаются к использованию только указанное издание. Для
недатированных документов - последнее издание указанного документа (включая любые поправки).
ISO 845-1:1988, Пластмассы и резина ячеистые. Определение кажущейся (насыпной) плотности
ISO 1923:1981, Пластмассы ячеистые и пенорезина. Определение линейных размеров
ISO 10093, Пластмассы. Испытания на огнестойкость. Стандартные источники воспламенения
ISO 13943, Пожарная безопасность. Словарь
3 Термины и определения
В настоящем международном стандарте применяются термины и определения по ISO/IEC 13943, а
также следующие:
3.1
продолжительность самостоятельного горения
afterflame time
время, в течение которого материал продолжает гореть, в заданных условиях испытания, после того,
как источник воспламенения удален
3.2
продолжительность послесвечения
afterglow time
время, в течение которого материал продолжает светиться, в заданных условиях испытания, после
того, как источник воспламенения удален и/или пламя затушено
3.3
расширенное применение результатов испытаний
extended application of test results
процесс прогнозирования результата испытания на основе одного или нескольких имеющихся
результатов, полученных в таком же испытании, в отношении продукции, для которой характеристика
и/или предполагаемое конечное применение (применения) подвергаются изменению
4 Значение испытаний
Испытания, выполненные на материале в установленных условиях, могут иметь большое значение
для сравнения характеристик горения различных материалов, испытанных на образцах,
ориентированных горизонтально, для контроля производственных процессов или оценки изменений в
составе или с точки зрения обработки перед применением.
4.2 Оценка опасности требует, чтобы были учтены такие факторы, как вклад со стороны топлива,
интенсивность горения (скорость выделения теплоты) и продукты горения, а также факторы
окружающей среды, такие как мощность источника, ориентация воспламеняемого материала и условия
вентиляции.
4.3 На характеристики горения при горизонтальной ориентации, измеренные данным методом, могут
повлиять такие факторы как плотность, анизотропия ячеистого материала, характеристики его
плавления, цвет и толщина материала.
4.4 Определенные материалы могут дать усадку без воспламенения при воздействии пламени. В
этом случае результаты испытания будут недостоверными, и потребуются дополнительные образцы,
чтобы получить 10 достоверных результатов испытаний. Если это невозможно, потому что не
происходит воспламенения всех образцов, то такие материалы необходимо испытывать другими
методами.
4.5 Характеристики горения при горизонтальной ориентации некоторых ячеистых пластмасс могут
меняться со временем, поэтому испытания проводят до и после теплового старения.
5 Аппаратура
5.1 Лабораторный вытяжной шкаф, имеющий внутренний объем не менее 0,5 м . Камера должна
позволить осуществление наблюдения за ходом испытаний и обеспечить, наряду с отсутствием
сквозняков, нормальную термическую циркуляцию воздуха мимо образца в процессе горения.
Внутренние поверхности камеры должны быть темного цвета. Если прибор для измерения
интенсивности света (люксметр) поместить в месте для испытуемого образца и повернуть лицом к
задней стенке камеры, записанный уровень интенсивности света должен быть меньше 20 люкс.
Для безопасности и удобства камера (которая может быть полностью закрыта) должна оснащаться
вытяжным устройством, например, вентилятором, чтобы удалять продукты горения, которые могут
оказаться токсичными. Вытяжное устройство на время испытания выключают и немедленно включают
после испытания для удаления продуктов горения. Может потребоваться обратный воздушный клапан.
ПРИМЕЧАНИЕ Количество кислорода, имеющееся для поддержания горения естественно важно для
проведения описываемых испытаний. Для испытаний, выполняемых данным методом, если время горения
затягивается, могут потребоваться камеры размером больше 0,5 м , чтобы получить воспроизводимые
результаты.
2 © ISO 2001 – Все права сохраняются

5.2 Лабораторная горелка P/PF2, в соответствии с ISO 10093, имеющая длину ствола (цилиндра)
(100 ± 10) мм и внутренний диам
...

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