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ASTM E136-2009 952 Standard Test Method for Behavior of Materials in a Vertical Tube Furnace at 750&176 C.pdf

1、Designation: E 136 09An American National StandardStandard Test Method forBehavior of Materials in a Vertical Tube Furnace at 750C1This standard is issued under the fixed designation E 136; the number immediately following the designation indicates the year oforiginal adoption or, in the case of rev

2、ision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1. Scope1.1 This fire-test-res

3、ponse test method covers the determi-nation under specified laboratory conditions of combustioncharacteristics of building materials. It is not intended to applyto laminated or coated materials.1.2 This test method references notes and footnotes thatprovide explanatory information. These notes and f

4、ootnotes,excluding those in tables and figures, shall not be considered asrequirements of this test method.1.3 The values stated in SI units are to be regarded asstandard. The values given in parentheses are for informationonly.1.4 Limitations of the test method are discussed in 1.1 andAnnex A1.1.5

5、This standard is used to measure and describe theresponse of materials, products, or 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 condi

6、tions.1.6 This standard does not purport to address all of thesafety concerns, if any, 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.2. Refere

7、nced Documents2.1 ASTM Standards:2D 1929 Test Method for Determining Ignition Temperatureof PlasticsD 3174 Test Method forAsh in theAnalysis Sample of Coaland Coke from CoalE84 Test Method for Surface Burning Characteristics ofBuilding MaterialsE 176 Terminology of Fire Standards2.2 ISO Standard:3IS

8、O 1182 Noncombustibility Test for Building MaterialsISO 13943 Fire Safety-Vocabulary2.3 Other Standard:BS 476 Combustibility Test of Materials33. Terminology3.1 DefinitionsFor definitions of terms found in this testmethod, refer to Terminology E 176 and ISO 13943. In case ofconflict, the definitions

9、 given in Terminology E 176 shallprevail.4. Summary of Test Method4.1 This test method uses a furnace consisting of a ceramictube containing an electric heating coil to expose buildingmaterials to a temperature of 750C (1382F) until failureoccurs or for at least 30 min.4.2 The furnace consists of tw

10、o concentric vertical refrac-tory tubes.4.3 Thermocouples are used to assess the temperature in-creases resulting from combustion of the building material.4.4 Visual observation is used to assess the occurrence offlaming.5. Significance and Use5.1 While actual building fire exposure conditions are n

11、otduplicated, this test method will assist in indicating thosematerials which do not act to aid combustion or add appre-ciable heat to an ambient fire.5.2 Materials passing the test are permitted limited flamingand other indications of combustion.6. Apparatus6.1 The test apparatus, as shown in Fig.

12、1, shall consistprimarily of the following:6.1.1 Refractory TubesTwo concentric, refractory tubes,76 and 102 mm (3 and 4 in.) in inside diameter and 210 to 250mm (812 to 10 in.) in length, with axes vertical, and with heatapplied by electric heating coils outside of the larger tube. A1This test meth

13、od is under the jurisdiction of ASTM Committee E05 on FireStandards and is the direct responsibility of Subcommittee E05.23 on Combustibil-ity.Current edition approved Feb. 1, 2009. Published March 2009. Originallyapproved in 1958. Last previous edition approved in 2004 as E 136 04.2For referenced A

14、STM 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 onthe ASTM website.3Available from American National Standards Institute (ANSI), 25 W. 43rd St.,4

15、th Floor, New York, NY 10036, http:/www.ansi.org.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.controlled flow of air is admitted tangentially near the top ofthe annular space between the tubes and passes to the bottomof the inner

16、tube. The outer tube rests on a refractory bottomand the inner tube rests on three spacer blocks so as to afforda total opening under the inner tube equal to or greater than thatof the annular space. The refractory bottom plate has aremovable plug for cleaning.6.1.2 Transparent CoverA transparent co

17、ver of heat-resistant glass or other transparent material shall be providedover the top of the inner tubes. The cover shall have a circularopening 28.7 6 0.8 mm (118 6132 in.) centered over the axisof the tubes. This opening has an area of 645 mm2(1.0 in.2).The cover shall be in two equally-sized, m

18、ovable parts.6.1.3 Thermocouples and an automatically recording deviceshall be provided. The thermocouples shall be located asfollows:6.1.3.1 Thermocouple T1is located in the center of the airspace between the two concentric, refractory tubes; approxi-mately 204 mm (8 in.) down from the top of the 1

19、02-mm(4-in.) diameter tube (Note 1).6.1.3.2 Thermocouple T3is located at the approximategeometric center of the specimen.6.1.3.3 Thermocouple T4is located on the surface, incontact with the test specimen; in the same horizontal plane asT3.6.1.3.4 Thermocouples T1, T3and T4shall have a timeconstant (

20、time to reach 63.2 % of the furnace air temperature of750C (1382F) of 5 to 10 s (Note 2).NOTE 1Thermocouple T1is used for better regulation of the tempera-ture of the air in the furnace space.NOTE 2Ungrounded, metallic-sheathed thermocouples of 1-mm di-ameter have been found to meet the time constan

21、t requirements.6.2 Specimen HolderThe specimen holder for solid testspecimens shall be as shown in Fig. 2.6.2.1 Test specimens in granular or powder form shall becontained in thin-wall, open-top vessels of inert materialswhose outside dimensions conform to the test specimen shapeand maximum size spe

22、cified in 7.1. These vessels shall havewalls of either solid or mesh construction.6.3 Test Specimen LocationDuring the test, the geometriccenter of the test specimen shall be located at the geometriccenter 63mm(618 in.) of the 76-mm (3-in.) diameter tube.NOTEInch-Pound Equivalentsin. 3 4 6 10 1034 1

23、in.2No. 16 Awgmm 76 102 152 254 273 6.4 cm21.29FIG. 1 Cross Section of Furnace AssemblyE1360927. Test Specimens7.1 All test specimens shall be 38 by 38 by 51 6 2.5 mm(1.5 by 1.5 by 2.0 6 0.1 in.).7.2 The test specimens shall be dried at 60 6 3C(140 6 5F) for not less than 24 h but no more than 48 h.

24、7.3 Test specimens shall then be placed in a desiccator tocool at least 1 h before testing.7.4 Not less than four identical specimens shall be tested.8. Procedure8.1 Test Room Setup:8.1.1 Conduct the test at room conditions of 21 6 3C(70 6 5F).8.1.2 The test apparatus shall not be exposed to drafts

25、or anyother form of direct sunlight or artificial illumination whichwould adversely affect the observation of flaming inside thefurnace.8.1.3 The room temperature shall not change by more than3C(5F) during a test.8.2 Air FlowProvide an external air source to supplyclean air through a metal tube loca

26、ted near the top of the testapparatus, tangentially between the annular spaced ceramictubes. The air shall be supplied at a steady and controllable rateof 0.0027 m3/min (0.10 ft3/min) 6 20 %, which will give an airflow of 3 m (10 ft)/min past a loaded test specimen in thefurnace at 750C (1382F). Mea

27、sure the air at room tempera-ture, as specified in 8.1.1 and meter by a rotameter or othermetering device in line with the metal tube.8.3 Stabilized Furnace TemperaturePrior to the initialheating period insert a thermocouple, T2, into the furnace fromthe top and place it where the geometric center o

28、f the testspecimen will be during the test. Use this thermocouple toestablish the stabilized furnace temperature.8.4 Test Furnace SetupPrepare the furnace by bringingthe temperature of thermocouple T2, located in the furnace atthe position to be occupied by the geometric center of thespecimen, to a

29、temperature of 750 6 5.5C (1382 6 10F).Maintain the temperature in the unloaded furnace for at least 15min to ensure stability.8.5 Once the operating temperature has been established bythermocouple, T2, note the temperature on thermocouple T1and control the test chamber during the test to the observ

30、ed T1temperature reading. It is acceptable to use T3as T2.8.6 Test ProcedureAs rapidly as possible, insert the testspecimen into the furnace with thermocouple T3inserted fromthe top of the test specimen to its geometric center andthermocouple T4attached to the side surface of the testspecimen.8.6.1

31、Close the top cover to the 6.4-cm2(1-in.2) openingimmediately after insertion of the test specimen. Readings forthermocouples T3and T4shall be made at intervals (Note 3) notto exceed 10 s during the first 5 min, and as often as necessaryafterwards to produce a smooth curve. Do not change theregulati

32、on of the current through the heating coils and the airflow during the test.NOTE 3A continuous read-out recording is preferred since it ispossible for the maximum temperature to occur between the 10-sintervals.FIG. 2 Specimen Holder for Solid SpecimensE1360938.6.2 Continue the test until the tempera

33、tures at thermo-couples T3and T4have reached maxima, or until it is evidentthat the specimen does not pass this test.8.6.3 After 30 min of testing have elapsed, or at any timesubsequent to that, testing shall be discontinued if, over theprevious 10 minutes, the temperature measured at the centerther

34、mocouple T3has risen by no more than 1C in any oneminute. The final temperature reading shall be recorded as themaximum temperature.8.7 Throughout the test make and record visual observationson the test specimens, noting quality, quantity, or intensity andduration of flaming or smoking, or both, and

35、 change of state.8.8 Note and record the time of occurrence of any flamingand the duration of such flaming in seconds.NOTE 4Flaming is sometimes difficult to identify. Some specimensexhibit only flame as a steady blue-colored luminous gas zone. Do notignore this and note it under “observations durin

36、g test” in the test report.8.9 Weigh each test specimen before and after testing andrecord the weight, in g, before and after the test for each testspecimen.8.10 Record the temperatures (initial, maximum and final),in C, as measured by the appropriate thermocouples.9. Calculation9.1 Calculate and re

37、cord the weight loss for each of the testspecimens, expressed as a percentage of the initial weight ofthe test specimen, to the nearest 1 %.9.2 Calculate and record the temperature rise, in C, foreach of the test specimens.9.2.1 Calculate the temperature rise as the difference be-tween the maximum t

38、emperature and the initial temperature, asmeasured by thermocouple, T3.10. Report10.1 Report the material as passing the test if at least threeof the four test specimens tested meet the individual testspecimen criteria detailed in 10.2 or 10.3. The three testspecimens do not need to meet the same in

39、dividual testspecimen criteria.10.2 If the weight loss of the test specimen is 50 % or less,the material passes the test when the criteria in 10.2.1 and in10.2.2 are met:10.2.1 The recorded temperatures of the surface and interiorthermocouples do not at anytime during the test rise more than30C (54F

40、) above the stabilized furnace temperature mea-sured at T2prior to the test.10.2.2 There is no flaming from the test specimen after thefirst 30 s.10.3 If the weight loss of the specimen exceeds 50 %, thematerial passes the test when the criteria in 10.3.1 and in 10.3.2are met:10.3.1 The recorded tem

41、perature of the surface and interiorthermocouples do not, at any time during the test, rise abovethe stabilized furnace temperature measured at T2prior to thetest.10.3.2 No flaming from the test specimen is observed at anytime during the test.11. Precision and Bias11.1 No information is presented ab

42、out the precision andbias of this test method for measuring combustion character-istics since the test results are nonquantitative and are reportedas pass or fail. (See X1.6.)11.2 There have been attempts to determine precision andbias for some of the numerical results for this test method butthe re

43、sults have not been made public.12. Keywords12.1 building materials; combustion; heated tube; limitedcombustion; Setchkin furnace; tube furnace; vertical tubefurnaceANNEXA1. TEST LIMITATIONSA1.1 At present, there are a number of limitations in the testmethod and its application that must be recogniz

44、ed. Materialsare not necessarily tested in the nature and form used inbuilding applications. The test specimen consists of a small,specified volume that is either (1) cut from a thick sheet; (2)assembled from multiple thicknesses of thin sheets; or (3)placed in a container if composed of granular po

45、wder or loosefiber materials.A1.2 The test method does not provide a measure of anintrinsic property. Test results apply to the specific test appa-ratus and test conditions and will potentially vary whenchanges are made to one or more of the following: (1) the size,shape, and arrangement of the spec

46、imen; (2) the distribution oforganic content; (3) the exposure temperature; (4) the airsupply; (5) the location of thermocouples.A1.3 The test method does not provide a quantitativemeasure of heat generation or combustibility; it simply servesas a test method with selected (end point) measure of lim

47、itedcombustibility.A1.4 The test method is not suitable or satisfactory formaterials that soften, flow, melt, or otherwise separate from themeasuring thermocouple.A1.5 The test method does not measure the self-heatingtendencies of large masses of materials. For example, itprovides no indication of p

48、otential self-heating of resin-impregnated mineral fiber insulation or oil-coated metalproducts.E136094APPENDIX(Nonmandatory Information)X1. COMMENTARYX1.1 IntroductionX1.1.1 The difference in fire risk between a combustiblebuilding material and a noncombustible (or incombustible) oneis generally ob

49、vious. However, some materials may containonly a limited amount of combustible content and may notcontribute appreciably to an ambient fire. The term noncom-bustible, while in recognized use as indicating a material thatwill not ignite or burn, is indefinite in its application unlessreferenced to a well defined testing procedure.X1.2 DefinitionX1.2.1 Most dictionaries have defined noncombustible insimple terms, such as that used in the 1920 edition of theNational Building Code promulgated by the National Board ofFire Underwriters (NBFU): Inc

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