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本文(ASTM E84-2010 9375 Standard Test Method for Surface Burning Characteristics of Building Materials《建筑材料的表面燃烧特性的标准试验方法》.pdf)为本站会员(twoload295)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ASTM E84-2010 9375 Standard Test Method for Surface Burning Characteristics of Building Materials《建筑材料的表面燃烧特性的标准试验方法》.pdf

1、Designation: E84 10An American National StandardStandard Test Method forSurface Burning Characteristics of Building Materials1This standard is issued under the fixed designation E84; the number immediately following the designation indicates the year of originaladoption or, in the case of revision,

2、the year of last revision.Anumber in parentheses indicates the year of last reapproval.Asuperscriptepsilon () 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-response stand

3、ard for the comparativesurface burning behavior of building materials is applicable toexposed surfaces such as walls and ceilings. The test isconducted with the specimen in the ceiling position with thesurface to be evaluated exposed face down to the ignitionsource. The material, product, or assembl

4、y shall be capable ofbeing mounted in the test position during the test. Thus, thespecimen shall either be self-supporting by its own structuralquality, held in place by added supports along the test surface,or secured from the back side.1.2 The purpose of this test method is to determine therelativ

5、e burning behavior of the material by observing theflame spread along the specimen. Flame spread and smokedeveloped index are reported. However, there is not necessarilya relationship between these two measurements.1.3 The use of supporting materials on the underside of thetest specimen has the abil

6、ity to lower the flame spread indexfrom those which might be obtained if the specimen could betested without such support. These test results do not neces-sarily relate to indices obtained by testing materials withoutsuch support.1.4 Testing of materials that melt, drip, or delaminate tosuch a degre

7、e that the continuity of the flame front is destroyed,results in low flame spread indices that do not relate directly toindices obtained by testing materials that remain in place.1.5 The values stated in inch-pound units are to be regardedas standard. The values given in parentheses are mathematical

8、conversions to SI units that are provided for information onlyand are not considered standard.1.6 The text of this standard references notes and footnotesthat provide explanatory information. These notes and foot-notes, excluding those in tables and figures, shall not beconsidered as requirements of

9、 the standard.1.7 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 unde

10、ractual fire conditions1.8 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

11、 to use.2. Referenced Documents2.1 ASTM Standards:2A390 Specification for Zinc-Coated (Galvanized) SteelPoultry Fence Fabric (Hexagonal and Straight Line)C1186 Specification for Flat Fiber-Cement SheetsD4442 Test Methods for Direct Moisture Content Measure-ment of Wood and Wood-Base MaterialsD4444 T

12、est Method for Laboratory Standardization andCalibration of Hand-Held Moisture MetersE69 Test Method for Combustible Properties of TreatedWood by the Fire-Tube ApparatusE136 Test Method for Behavior of Materials in a VerticalTube Furnace at 750CE160 Test Method for Combustible Properties of TreatedW

13、ood by the Crib TestE162 Test Method for Surface Flammability of MaterialsUsing a Radiant Heat Energy SourceE176 Terminology of Fire StandardsE286 Method of Test for Surface Flammability of BuildingMaterials Using an 8-ft (2.44-m) Tunnel Furnace0E2231 Practice for Specimen Preparation and Mounting o

14、fPipe and Duct Insulation Materials to Assess SurfaceBurning CharacteristicsE2404 Practice for Specimen Preparation and Mounting ofTextile, Paper or Polymeric (Including Vinyl) Wall orCeiling Coverings to Assess Surface Burning Characteris-ticsE2573 Practice for Specimen Preparation and Mounting of1

15、This test method is under the jurisdiction of ASTM Committee E05 on FireStandards and is the direct responsibility of Subcommittee E05.22 on SurfaceBurning.Current edition approved Jan. 1, 2010. Published February 2010. Originallyapproved in 1950. Last previous edition approved in 2009 as E84 09c. D

16、OI:10.1520/E0084-10.2For 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 onthe ASTM website.1Copyright ASTM International, 100 Barr H

17、arbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.Site-Fabricated Stretch Systems toAssess Surface BurningCharacteristicsE2579 Practice for Specimen Preparation and Mounting ofWood Products to Assess Surface Burning CharacteristicsE2599 Practice for Specimen Preparation and M

18、ounting ofReflective Insulation Materials and Radiant Barrier Mate-rials for Building Applications to Assess Surface BurningCharacteristics2.2 NFPA Standards:3NFPA 262 Standard Method of Test for Flame Travel andSmoke of Wires and Cables for Use in Air-HandlingSpaces (2007)2.3 UL Standards4UL 1820 S

19、tandard for Safety for Fire Test of PneumaticTubing for Flame and Smoke Characteristics (2004)UL 1887 Standard for Fire Test of Plastic Sprinkler Pipe forVisible Flame and Smoke Characteristics (2004)UL 2024 Standard for Safety for Optical Fiber and Com-munication Cable Raceway (2004)3. Terminology3

20、.1 DefinitionsFor definitions of terms used in this testmethod refer to Terminology E176. The term flame spreadindex from Terminology E176 is of particular interest to thisstandard and is defined in 3.1.1.3.1.1 flame spread index, na number or classificationindicating a comparative measure derived f

21、rom observationsmade during the progress of the boundary of a zone of flameunder defined test conditions.3.2 Definitions of Terms Specific to This Standard:3.2.1 smoke developed index, na number or classificationindicating a comparative measure derived from smoke obscu-ration data collected during t

22、he test for surface burningcharacteristics.3.2.2 surface flame spread, nthe propagation of a flameaway from the source of ignition across the surface of thespecimen.4. Significance and Use4.1 This test method is intended to provide only compara-tive measurements of surface flame spread and smoke den

23、sitymeasurements with that of select grade red oak and fiber-cement board surfaces under the specific fire exposure condi-tions described herein.4.2 This test method exposes a nominal 24-ft (7.32-m) longby 20-in. (508-mm) wide specimen to a controlled air flow andflaming fire exposure adjusted to sp

24、read the flame along theentire length of the select grade red oak specimen in 512 min.4.3 This test method does not provide for the following:4.3.1 Measurement of heat transmission through the testedsurface.4.3.2 The effect of aggravated flame spread behavior of anassembly resulting from the proximi

25、ty of combustible wallsand ceilings.4.3.3 Classifying or defining a material as noncombustible,by means of a flame spread index by itself.5. Apparatus5.1 Fire Test ChamberSee Figs. 1-5.3Available from National Fire Protection Association, 1 Battery March Park,Quincy, MA 02169.4Available from Underwr

26、iters Laboratories, 333 Pfingsten Road, Northbrook, IL60062.FIG. 1 Test Furnace, Showing Some Critical Dimensions (Not a Construction Drawing)E841025.1.1 The fire test chamber is a rectangular horizontal ductwith a removable lid. The inside dimensions are as follows:Width: 1734 614 in. (451 6 6.3 mm

27、) measured between the topledges along the side walls, and 1758 638 in. (448 6 10mm) at all other points.Depth: 12 612 in. (305 6 13 mm) measured from the bottom ofthe test chamber to the top of the ledges on which thespecimen is supported. This measurement includes the18in. (3.2 mm) thickness of th

28、e 112 in. (38 mm) wide wovenfiberglass gasket tape.Length: 25 ft 6 3 in. (7.62 m 6 76 mm).5.1.2 The sides and base of the chamber shall be lined withan insulating firebrick with the dimensions of 412 in. by 9 in.by 212 in. thick as illustrated in Fig. 2. The insulating firebrickshall have the follow

29、ing properties:Maximum Recommended Temperature 2600F (1427C)Bulk Density 48 6 3 lb/ft3(0.77 6 0.046 g/cm3)Thermal Conductivity at MeanTemperature ofBtuin./hft2F W/mC500F (260C) 1.6 0.231000F (538C) 1.9 0.271500F (815C) 2.2 0.322000F (1093C) 2.6 0.375.1.3 One side of the chamber shall be provided wit

30、h doubleobservation windows5with the inside pane flush mounted (see5Heat-resistant glass, high-silica, 100 % silica glass, nominal14-in. thick hasbeen found suitable for the interior pane. Borosilicate glass, nominal14-in. thick hasbeen found suitable for the exterior pane.FIG. 2 Test Furnace Showin

31、g Critical Dimensions (Not a Construction Drawing)E84103Fig. 2). Exposed inside glass shall be 234 638 by11+1,2in. (70 6 10 by 279 + 25 50 mm). The centerline of theexposed area of the inside glass shall be in the upper half of thefurnace wall, with the upper edge not less than 2.5 in. (63 mm)below

32、the furnace ledge. The window shall be located such thatnot less than 12 in. (305 mm) of the specimen width can beobserved. Multiple windows shall be located along the tunnelso that the entire length of the test sample is observable fromoutside the fire chamber. The windows shall be pressure tightin

33、 accordance with 7.2 and 7.2.1.5.1.4 The ledges shall be fabricated of structural materials6capable of withstanding the abuse of continuous testing. Theledges shall be level with respect to the length and width of thechamber and each other. The ledges shall be maintained in astate of repair commensu

34、rate with the frequency, volume, andseverity of testing occurring at any time.5.1.5 Lid:5.1.5.1 The lid shall consist of a removable noncombustiblemetal and mineral composite structure as shown in Fig. 2 andof a size necessary to cover completely the fire test chamberand the test samples. The lid sh

35、all be maintained in anunwarped and flat condition. When in place, the lid shall becompletely sealed to prevent air leakage into the fire testchamber during the test.5.1.5.2 The lid shall be insulated with a minimal thicknessof 2 in. (51 mm) castable insulation or mineral compositematerial having ph

36、ysical characteristics comparable to thefollowing:Maximum effective use temperature ofat least: 1200F (650C)Bulk density 21 lb/ft3(336 kg/m3)Thermal conductivity at 300 to 700F(149 to 371C)0.50 to 0.71 Btuin./hft2F (0.072 to0.102 W/mK)5.1.5.3 The entire lid assembly shall be protected with flatsecti

37、ons of nominal14-in. (6.3-mm) fiber-cement board meet-ing the properties of Annex A3. This protective board shall bemaintained in sound condition through continued replacement.The protective board is to be secured to the furnace lid or placeon the back side of the test specimen.6High-temperature fur

38、nace refractory. Zirconium silicate, or water-cooled steeltubing have been found suitable for this purpose.FIG. 3 Typical Exhaust End Transition (Not a Construction Drawing)E841045.1.6 Gas Burners:5.1.6.1 One end of the test chamber shall be designated asthe “fire end”. This fire end shall be provid

39、ed with two gasburners delivering flames upward against the surface of the testsample (see Fig. 2). The burners shall be spaced 12 in. (305mm) from the fire end of the test chamber, and 712 612 in.(190 6 13 mm) below the under surface of the test sample. Gasto the burners shall be provided through a

40、 single inlet pipe,distributed to each port burner through a tee-section. The outletshall be a34 in. NPT elbow. The plane of the port shall beparallel to the furnace floor, such that the gas is directedupward toward the specimen. Each port shall be positionedwith its centerline 4 612 in. (102 6 13 m

41、m) on each side ofthe centerline of the furnace so that the flame is distributedevenly over the width of the exposed specimen surface (seeFig. 2).5.1.6.2 The controls used to assure constant flow of gas tothe burners during period of use shall consist of a pressureregulator, a gas meter constructed

42、to read in increments of notmore than 0.1 ft3(2.8 L), a manometer to indicate gas pressurein inches of water, a quick-acting gas shut-off valve, and a gasmetering valve.5.1.7 Air Intake:5.1.7.1 An air intake shutter shall be located 54 6 5 in.(1372 6 127 mm) upstream of the burner, as measured fromt

43、he burner centerline to the outside surface of the shutter (seeFig. 1). The air intake is to be fitted with a vertically slidingshutter extending the entire width of the test chamber. Theshutter shall be positioned so as to provide an air inlet port 3 6116 in. (76 6 2 mm) high measured from the floo

44、r level of thetest chamber at the air intake point.5.1.7.2 To provide air turbulance for proper combustion,turbulance baffling shall be provided by positioning six refrac-tory firebricks (as defined in 5.1.2) along the side walls of thechamber. With the long dimension vertical, 412 in. (114-mm)dimen

45、sion along the wall, place the bricks as follows from thecenterline of the burner ports:On the window side at 7, 12, and 20 612 ft (2.1, 3.7, and 6.1 6 0.2 m)On the opposite side at 412 ,912 , and 16 612 ft (1.3, 2.9, and 4.9 6 0.2 m)5.1.7.3 The movement of air shall be by an induced draftsystem hav

46、ing a total draft capacity of at least 0.15 in. (3.8mm) water column with the sample in place, the shutter at thefire end open the normal 3 6116 in. (76 6 2 mm), and thedamper in the wide open position. A draft gage tap to indicatestatic pressure shall be inserted through the top at the midwidthof t

47、he tunnel, 1 6 0.5 in. (25 6 12 mm) below the ceiling, 156 0.5 in. (381 6 12 mm) downstream from the inlet shutter(see Fig. 1).5.1.8 Exhaust End:5.1.8.1 The other end of the test chamber is designated asthe exhaust end. The exhaust end shall be fitted with a gradualrectangular-to-round transition pi

48、ece, not less than 20 in. (508mm) in length, with a cross-sectional area of not less than 200in.2(1290 cm2) at any point (see Fig. 3).5.1.8.2 The transition piece shall in turn be fitted to a 16 in.(406 mm) diameter duct pipe. A typical duct system shown inFig. 4 contains two 90 elbows (see Fig. 5)

49、with the exhaustduct running beside the fire test chamber. In order to complywith this typical design, the vertical centerline of the exhaustduct system is identical to that of the fire test chamber.FIG. 4 Plan ViewTypical Duct System (Not a ConstructionDrawing)E841055.1.8.3 The exhaust duct is to be insulated with at least 2 in.(51 mm) of high temperature mineral composition materialfrom the exhaust end of the fire chamber to the photometerlocation.5.1.8.4 An exhaust fan shall be installed at the end of theexhaust duct

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