ASTM E1354-2008 Standard Test Method for Heat and Visible Smoke Release Rates for Materials and Products Using an Oxygen Consumption Calorimeter.pdf

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1、Designation: E 1354 08An American National StandardStandard Test Method forHeat and Visible Smoke Release Rates for Materials andProducts Using an Oxygen Consumption Calorimeter1This standard is issued under the fixed designation E 1354; the number immediately following the designation indicates the

2、 year oforiginal adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon (e) indicates an editorial change since the last revision or reapproval.1. Scope1.1 This fire-test-response standard provides for meas

3、uringthe response of materials exposed to controlled levels ofradiant heating with or without an external ignitor.1.2 This test method is used to determine the ignitability,heat release rates, mass loss rates, effective heat of combustion,and visible smoke development of materials and products.1.3 T

4、he rate of heat release is determined by measurementof the oxygen consumption as determined by the oxygenconcentration and the flow rate in the exhaust product stream.The effective heat of combustion is determined from a con-comitant measurement of specimen mass loss rate, in combi-nation with the h

5、eat release rate. Smoke development ismeasured by obscuration of light by the combustion productstream.1.4 Specimens shall be exposed to heating fluxes in therange of 0 to 100 kW/m2. External ignition, when used, shallbe by electric spark. The value of the heating flux and the useof external ignitio

6、n are to be as specified in the relevantmaterial or performance standard (see X1.2). The normalspecimen testing orientation is horizontal, independent ofwhether the end-use application involves a horizontal or avertical orientation. The apparatus also contains provisions forvertical orientation test

7、ing; this is used for exploratory ordiagnostic studies only.1.5 Ignitability is determined as a measurement of timefrom initial exposure to time of sustained flaming.1.6 This test method has been developed for use for materialand product evaluations, mathematical modeling, design pur-poses, or devel

8、opment and research. Examples of materialspecimens include portions of an end-use product or thevarious components used in the end-use product.1.7 The values stated in SI units are to be regarded as thestandard.1.8 This standard is used to measure and describe theresponse of materials, products, or

9、assemblies to heat andflame under controlled conditions, but does not by itselfincorporate all factors required for fire hazard or fire riskassessment of the materials, products, or assemblies underactual fire conditions.1.9 This standard does not purport to address all of thesafety concerns, if any

10、, associated with its use. It is theresponsibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use. For specific hazardstatements, see Section 7.2. Referenced Documents2.1 ASTM Standards:2D 586

11、5 Test Method for Gross Calorific Value of Coal andCokeE 176 Terminology of Fire StandardsE 177 Practice for Use of the Terms Precision and Bias inASTM Test MethodsE 662 Test Method for Specific Optical Density of SmokeGenerated by Solid MaterialsE 691 Practice for Conducting an Interlaboratory Stud

12、y toDetermine the Precision of a Test MethodE 906 Test Method for Heat and Visible Smoke ReleaseRates for Materials and Products Using a ThermopileMethod2.2 ISO Standards:ISO 5657-1986(E) Fire Testsreaction to fireignitabilityof building materials3ISO 5725 Precision of test methodsdetermination of r

13、e-peatability and reproducibility for a standard test methodby inter-laboratory tests33. Terminology3.1 DefinitionsFor definitions of terms used in this testmethod, refer to Terminology E 176.3.2 Definitions of Terms Specific to This Standard:3.2.1 effective heat of combustion, nthe measured heatrel

14、ease divided by the mass loss for a specified time period.1This test method is under the jurisdiction of ASTM Committee E05 on FireStandards and is the direct responsibility of Subcommittee E05.21 on Smoke andCombustion Products.Current edition approved Jan. 1, 2008. Published February 2008. Origina

15、llyapproved in 1990. Last previous edition approved in 2004 as E 1354 - 04a.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onth

16、e ASTM website.3Available from American National Standards Institute (ANSI), 25 W. 43rd St.,4th Floor, New York, NY 10036.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.Copyright by ASTM Intl (all rights reserved); Mon Oct 13 23:13:

17、17 EDT 2008Downloaded/printed byGuo Dehua (CNIS) pursuant to License Agreement. No further reproductions authorized.3.2.2 heating flux, nthe incident flux imposed externallyfrom the heater on the specimen at the initiation of the test.3.2.2.1 DiscussionThe specimen, once ignited, is alsoheated by it

18、s own flame.3.2.3 heat release rate, nthe heat evolved from thespecimen, per unit of time.3.2.4 ignitability, nthe propensity to ignition, as measuredby the time to sustained flaming, in seconds, at a specifiedheating flux.3.2.5 net heat of combustion, nthe oxygen bomb (see TestMethod D 5865) value

19、for the heat of combustion, correctedfor gaseous state of product water.3.2.6 orientation, nthe plane in which the exposed face ofthe specimen is located during testing, either vertical orhorizontal facing up.3.2.7 oxygen consumption principle, nthe expression ofthe relationship between the mass of

20、oxygen consumed duringcombustion and the heat released.3.2.8 smoke obscuration, nreduction of light transmissionby smoke, as measured by light attenuation.3.2.9 sustained flaming, nexistence of flame on or overmost of the specimen surface for periods of at least 4 s.3.2.9.1 DiscussionFlaming of less

21、 than 4 s duration isidentified as flashing or transitory flaming.3.3 Symbols:As= nominal specimen exposed surface area, 0.01 m2.C = calibration constant for oxygen consumptionanalysis, m1/2kg1/2 K1/2.Dhc= net heat of combustion, kJ/kg.Dhc,eff= effective heat of combustion, kJ/kg.I = actual beam int

22、ensity.Io= beam intensity with no smoke.k = smoke extinction coefficient, m1.L = extinction beam path length, m.m = specimen mass, kg.mf= final specimen mass, kg.mi= initial specimen mass, kg.m = specimen mass loss rate, kg/s.DP = orifice meter pressure differential, Pa.q9tot= total heat released, k

23、J/m2(Note that kJ kWs).q = heat release rate, kW.q9 = heat release rate per unit area, kW/m2.q9max= maximum heat release rate per unit area (kW/m2).q9180= average heat release rate, per unit area, over thetime period starting at tigand ending 180 s later(kW/m2).r = repeatability (the units are the s

24、ame as for thevariable being characterized).R = reproducibility (the units are the same as for thevariable being characterized).ro= stoichiometric oxygen/fuel mass ratio ().sr= sample-based standard deviation estimate for re-peatability (same units as r).sR= sample-based standard deviation estimate

25、for re-producibility (same units as R).t = time, s.td= oxygen analyzer delay time, s.tig= time to sustained flaming (s).r = density (kg/m3).Dt = sampling time interval, s.Te= absolute temperature of gas at the orifice meter,K.V= volume exhaust flow rate, measured at the loca-tion of the laser photom

26、eter, m3/s.XO2= oxygen analyzer reading, mole fraction O2().XO20= initial value of oxygen analyzer reading ().XO21= oxygen analyzer reading, before delay time cor-rection ().sf= specific extinction area, for smoke, m2/kg.sr= repeatability standard deviation (same units as r).sR= reproducibility stan

27、dard deviation (same units asR).4. Summary of Test Method4.1 This test method is based on the observation (1)4that,generally, the net heat of combustion is directly related to theamount of oxygen required for combustion. The relationship isthat approximately 13.1 3 103kJ of heat are released per 1 k

28、gof oxygen consumed. Specimens in the test are burned inambient air conditions, while being subjected to a predeter-mined external heat flux, which can be set from 0 to 100kW/m2. Burning may be either with or without a spark ignition.The primary measurements are oxygen concentrations andexhaust gas

29、flow rate. Additional measurements include themass-loss rate of the specimen, the time to sustained flamingand smoke obscuration, or as required in the relevant materialor performance standard.5. Significance and Use5.1 This test method is used primarily to determine the heatevolved in, or contribut

30、ed to, a fire involving products of thetest material. Also included is a determination of the effectiveheat of combustion, mass loss rate, the time to sustainedflaming, and smoke production. These properties are deter-mined on small size specimens that are representative of thosein the intended end

31、use.5.2 This test method is applicable to various categories ofproducts and is not limited to representing a single firescenario.Additional guidance for testing is given in X1.2.3 andX1.11.5.3 This test method is not applicable to end-use productsthat do not have planar, or nearly planar, external s

32、urfaces.6. Apparatus6.1 General:6.1.1 All dimensions given in the figures that are followedby an asterisk are mandatory, and shall be followed withinnominal tolerances of 61 mm, unless otherwise specified.Particularly critical dimensions are followed by an asterisk inFigs. 1-12.6.1.2 The test appara

33、tus5shall consist essentially of thefollowing components: a conical radiant electric heater, ca-pable of horizontal or vertical orientation; specimen holders,4The boldface numbers in parentheses refer to the list of references at the end ofthis test method.5A list of suppliers of this apparatus is a

34、vailable from ASTM Headquarters.E1354082Copyright by ASTM Intl (all rights reserved); Mon Oct 13 23:13:17 EDT 2008Downloaded/printed byGuo Dehua (CNIS) pursuant to License Agreement. No further reproductions authorized.different for the two orientations; an exhaust gas system withoxygen monitoring a

35、nd flow measuring instrumentation; anelectric ignition spark plug; a data collection and analysissystem; and a load cell for measuring specimen mass loss. Ageneral view of the apparatus is shown in Fig. 1; a cross sectionthrough the heater in Fig. 2; and exploded views of horizontaland vertical orie

36、ntations in Fig. 3 and Fig. 4.6.1.3 Additional details describing features and operation ofthe test apparatus are given in Ref (2).6.2 Conical Heater:6.2.1 The active element of the heater shall consist of anelectrical heater rod, rated at 5000 W at 240 V, tightly woundinto the shape of a truncated

37、cone (Fig. 2 and Fig. 4). Theheater shall be encased on the outside with a double-wallstainless steel cone, packed with a refractory fiber material ofapproximately 100 kg/m3density.6.2.2 The heater shall be hinged so it can be swung intoeither a horizontal or a vertical orientation. The heater shall

38、 becapable of producing irradiances on the surface of the speci-men of up to 100 kW/m2. The irradiance shall be uniformwithin the central 50 by 50-mm area of the specimen to within62 % in the horizontal orientation and to within 610 % in thevertical orientation. As the geometry of the heater is crit

39、ical,the dimensions on Fig. 2 are mandatory.6.2.3 The irradiance from the heater shall be capable ofbeing held at a preset level by means of a temperaturecontroller and three type K stainless steel sheathed thermo-couples, symmetrically disposed and in contact with, but notwelded to, the heater elem

40、ent (see Fig. 2). The thermocouplesshall be of equal length and wired in parallel to the temperaturecontroller. The standard thermocouples are sheathed, 1.5 andNOTE 1All dimensions are in millimetres.NOTE 2* Indicates a critical dimension.FIG. 1 Overall View of ApparatusNOTE 1All dimensions are in m

41、illimetres.NOTE 2* Indicates a critical dimension.FIG. 2 Cross-Section View Through the HeaterFIG. 3 Exploded View, Horizontal OrientationE1354083Copyright by ASTM Intl (all rights reserved); Mon Oct 13 23:13:17 EDT 2008Downloaded/printed byGuo Dehua (CNIS) pursuant to License Agreement. No further

42、reproductions authorized.1.6 mm outside diameter, with an unexposed hot junction.Alternatively, either 3 mm outside diameter sheathed thermo-couples with an exposed hot junction or 1 mm outside diametersheathed thermocouples with unexposed hot junction can beused.6.3 Temperature Controller:6.3.1 The

43、 temperature controller for the heater shall becapable of holding the element temperature steady to within62C. A suitable system is a 3-term controller (proportional,integral, and derivative) and a thyristor unit capable of switch-ing currents up to 25 A at 240 V.6.3.2 The controller shall have a te

44、mperature input range of0 to 1000C; a set scale capable of being read to 2C or better;and automatic cold junction compensation. The controller shallbe equipped with a safety feature such that in the event of anopen circuit in the thermocouple line, it will cause thetemperature to fall to near the bo

45、ttom of its range.6.3.3 The thyristor unit shall be of the zero crossing and notof the phase angle type.6.3.4 The heater temperature shall be monitored by a metercapable of being read to 62C, or better. It shall be permittedto be incorporated into the temperature controller.6.4 Exhaust System:6.4.1

46、The exhaust-gas system shall consist of a high tem-perature centrifugal exhaust fan, a hood, intake and exhaustducts for the fan, and an orifice plate flowmeter (Fig. 5). Theexhaust system shall be capable of developing flows from0.012 to 0.035 m3/s.6.4.2 A restrictive orifice (57 mm inside diameter

47、) shall belocated between the hood and the duct to promote mixing.6.4.3 A ring sampler shall be located in the fan intake ductfor gas sampling, 685 mm from the hood (Fig. 1). The ringsampler shall contain twelve holes to average the streamcomposition with the holes facing away from the flow to avoid

48、soot clogging.6.4.4 The temperature of the gas stream shall be measuredusing a 1.0 to 1.6 mm outside diameter sheathed-junctionthermocouple ora3mmoutside diameter exposed junctionthermocouple positioned in the exhaust stack on the centerlineand 100 mm upstream from the measuring orifice plate.6.4.5

49、The flow rate shall be determined by measuring thedifferential pressure across a sharp-edged orifice (57 mm insidediameter) in the exhaust stack, at least 350 mm downstreamfrom the fan when the latter is located as shown in Fig. 5.6.4.6 In other details, the geometry of the exhaust system isnot critical. Where necessary, small deviations from the rec-ommended dimensions given in Fig. 5 shall be permitted to bemade. The inner diameter of the duct and the orifice plates isnot a critical dimension.Also the fan does not need to be at theexact locati

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