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本文(ASTM G125-2000(2015) Standard Test Method for Measuring Liquid and Solid Material Fire Limits in Gaseous Oxidants《测量气体氧化剂中液体和固体材料着火极限的标准试验方法》.pdf)为本站会员(diecharacter305)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 G125-2000(2015) Standard Test Method for Measuring Liquid and Solid Material Fire Limits in Gaseous Oxidants《测量气体氧化剂中液体和固体材料着火极限的标准试验方法》.pdf

1、Designation: G125 00 (Reapproved 2015)Standard Test Method forMeasuring Liquid and Solid Material Fire Limits in GaseousOxidants1This standard is issued under the fixed designation G125; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revisi

2、on, 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.1. Scope1.1 This test method covers a procedure for measuring thethreshold-limit conditions to allow equilibrium o

3、f combustionof materials in various oxidant gases under specific testconditions of pressure, temperature, flow condition, fire-propagation directions, and various other geometrical featuresof common systems.1.2 This test method is patterned after Test MethodD2863-95 and incorporates its procedure fo

4、r measuring thelimit as a function of oxidant concentration for the mostcommonly used test conditions. Sections 8, 9, 10, 11, 13, andfor the basic oxidant limit (oxygen index) procedure are quoteddirectly from Test Method D2863-95. Oxygen index datareported in accordance with Test Method D2863-95 ar

5、e accept-able substitutes for data collected with this standard undersimilar conditions.1.3 This test method has been found applicable to testingand ranking various forms of materials. It has also foundlimited usefulness for surmising the prospect that materials willprove “oxygen compatible” in actu

6、al systems. However, itsresults do not necessarily apply to any condition that does notfaithfully reproduce the conditions during test. The fire limit isa measurement of a behavioral property and not a physicalproperty. Uses of these data are addressed in Guides G63 andG94.NOTE 1Although this test m

7、ethod has been found applicable fortesting a range of materials in a range of oxidants with a range of diluents,the accuracy has not been determined for many of these combinations andconditions of specimen geometry, outside those of the basic procedure asapplied to plastics.NOTE 2Test Method D2863-9

8、5 has been revised and the revised TestMethod has been issued as D2863-97. The major changes involve sampledimensions, burning criteria and the method for determining the oxygenindex. The aim of the revisions was to align Test Method D2863 with ISO4589-2. Six laboratories conducted comparison round

9、robin testing onself-supporting plastics and cellular materials using D2863-95 and D2863-97. The results indicate that there is no difference between the meansprovided y the two methods at the 95 % confidence level. No comparisontests were conducted on thin films. The majority of ASTM Committee G4fa

10、vors maintaining the D2863-95 as the backbone of G125 until compre-hensive comparison data become available.1.4 One very specific set of test conditions for measuringthe fire limits of metals in oxygen has been codified in TestMethod G124. Test Method G124 measures the minimumpressure limit in oxyge

11、n for its own set of test conditions. Itsdetails are not reproduced in this standard. A substantialdatabase is available for this procedure, although it is muchsmaller than the database for Test Method D2863-95.(WarningDuring the course of combustion, gases, vapors,aerosols, fumes or any combination

12、 of these are evolved whichmay be hazardous.) (WarningAdequate precautions shouldbe taken to protect the operator.)1.5 The values stated in SI units are to be regarded as thestandard. No other units of measurement are included in thisstandard.1.6 This basic standard should be used to measure anddesc

13、ribe the properties of materials, products, or assemblies inresponse to heat and flame under controlled laboratory con-ditions and should not be used to directly describe or appraisethe fire hazard or fire risk of materials, products or assembliesunder actual fire conditions. However, results of thi

14、s test maybe used as elements of a fire risk assessment which takes intoaccount all of the factors which are pertinent to an assessmentof the fire hazard of a particular end use. The standard hasmore applicability in this regard at predicting the fire behaviorof materials and components that are clo

15、se in size to the testcondition, than for systems that are much different (for ex-ample: comparing a test rod to a valve seat rather thancomparing a test rod to a house or a particle).1.7 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is the1

16、This test method is under the jurisdiction of ASTM Committee G04 onCompatibility and Sensitivity of Materials in Oxygen Enriched Atmospheres and isthe direct responsibility of Subcommittee G04.01 on Test Methods. Portions havebeen adopted from Test Method D2863-95, which is under the jurisdiction of

17、ASTMCommittee D20 on Plastics.Current edition approved Oct. 1, 2015. Published October 2015. Originallyapproved in 1994. Last previous edition approved in 2000 as G125 00(2008).DOI: 10.1520/G0125-00R15.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959

18、. United States1responsibility 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. Referenced Documents2.1 ASTM Standards:2D618 Practice for Conditioning Plastics for TestingD1071 Test Methods f

19、or Volumetric Measurement of Gas-eous Fuel SamplesD2444 Test Method for Determination of the Impact Resis-tance of Thermoplastic Pipe and Fittings by Means of aTup (Falling Weight)D2863 Test Method for Measuring the Minimum OxygenConcentration to Support Candle-Like Combustion ofPlastics (Oxygen Ind

20、ex)D2863-95 Test Method for Measuring the Minimum OxygenConcentration to Support Candle-Like Combustion ofPlastics (Oxygen Index)D2863-97 Test Method for Measuring the Minimum OxygenConcentration to Support Candle-Like Combustion ofPlastics (Oxygen Index)G63 Guide for Evaluating Nonmetallic Material

21、s for Oxy-gen ServiceG94 Guide for Evaluating Metals for Oxygen ServiceG124 Test Method for Determining the Combustion Behav-ior of Metallic Materials in Oxygen-Enriched Atmo-spheresG128 Guide for Control of Hazards and Risks in OxygenEnriched Systems2.2 Other Standards:ISO 4589-2 PlasticsDeterminat

22、ion of burning behavior byoxygen indexPart 2: Ambient temperature test33. Terminology3.1 Definitions:3.1.1 oxygen compatibility, nthe ability of a substance tocoexist with both oxygen and a potential source(s) of ignitionwithin the acceptable risk parameter of the user (at an expectedpressure and te

23、mperature). (See Guide G128.)3.1.2 oxygen index, nthe minimum concentration ofoxygen, expressed as a volume percent, in a mixture of oxygenand nitrogen that will just support flaming combustion of amaterial initially at room temperature under the conditions ofTest Method D2863. (See Test Method D286

24、3.)3.2 Definitions of Terms Specific to This Standard:3.2.1 fire limit, nthe threshold limit conditions that willjust support sustained combustion of a material under acombination of specified conditions and at least one variableparameter (typically oxidant concentration, diluent nature,pressure, te

25、mperature, geometry, flow or flame parameters,etc.).3.2.2 oxidant compatibility, nthe ability of a substance tocoexist with both an oxidant and a potential source(s) ofignition within the acceptable risk parameter of the user (at anexpected pressure and temperature).3.2.3 oxidant index, nthe minimum

26、 concentration of anoxidant such as oxygen, nitrous oxide, fluorine, etc., expressedas a volume percent, in a mixture of the oxidant with a diluentsuch as nitrogen, helium, carbon dioxide, etc., that will justsupport sustained combustion of a material initially at givenconditions of temperature, pre

27、ssure, flow conditions, propaga-tion direction, etc. (See also, oxygen index.)3.2.3.1 DiscussionThe oxidant index may be more spe-cifically identified by naming the oxidant: oxygen limit (orindex), nitrous oxide limit (or index), fluorine limit (or index),etc. Unless specified otherwise, the typical

28、 oxidant is taken tobe oxygen, the typical diluent is taken to be nitrogen, and thetypical temperature is taken as room temperature.3.2.4 pressure limitthe minimum pressure of an oxidant(or mixture) that will just support sustained combustion of amaterial initially at given conditions of oxidant con

29、centration,temperature, flow condition, propagation direction, etc.3.2.4.1 DiscussionThe pressure limit may be more spe-cifically identified by naming the oxidant: oxygen pressurelimit, nitrous oxide pressure limit, fluorine pressure limit, etc.3.2.5 temperature limitthe minimum temperature of anoxi

30、dant (or mixture) that will just support sustained combus-tion of a material initially at given conditions of oxidantconcentration, temperature, flow condition, propagationdirection, etc.3.2.5.1 DiscussionThe temperature limit may be morespecifically identified by naming the oxidant: oxygen tempera-

31、ture limit, nitrous oxide temperature limit, fluorine temperaturelimit, etc.4. Summary of Test Method4.1 The threshold limit condition (minimum oxidantconcentration, minimum pressure, minimum temperature, etc.)that will just support sustained combustion under equilibriumconditions is measured in a t

32、est apparatus. The equilibrium isestablished by the relation between the heat generated from thecombustion of the specimen (that may be augmented by theheat of decomposition of some oxidants) and the heat lost tothe surroundings as measured by one or the other of twoarbitrary criteria, namely, a tim

33、e of burning or a length ofspecimen burned. This point is approached from both sides ofthe critical threshold condition in order to establish the firelimit.5. Significance and Use5.1 This test method provides for measuring of the mini-mum conditions of a range of parameters (concentration ofoxidant

34、in a flowing mixture of oxidant and diluent, pressure,temperature) that will just support sustained propagation ofcombustion. For materials that exhibit flaming combustion,this is a flammability limit similar to the lower flammabilitylimit, upper flammability limit, and minimum oxidant for2For refer

35、enced 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.3ISO 4589-2 First edition 1996-07-15, International Organization forSta

36、ndardization, Geneve, Switzerland, 1996.G125 00 (2015)2combustion of gases (1).4However, unlike flammability limitsfor gases, in two-phase systems, the concept of upper andlower flame limits is not meaningful. However, limits cantypically be determined for variations in other parameters suchas the m

37、inimum oxidant for combustion (the oxidant index),the pressure limit, the temperature limit, and others. Measure-ment and use of these data are analogous to the measurementand use of the corresponding data for gaseous systems. That is,the limits apply to systems likely to experience completepropagat

38、ions (equilibrium combustion). Successful ignitionand combustion below the measured limits at other conditionsor of a transient nature are not precluded below the threshold.Flammability limits measured at one set of conditions are notnecessarily the lowest thresholds at which combustion canoccur. Th

39、erefore direct correlation of these data with theburning characteristics under actual use conditions is notimplied.6. Abstract6.1 A well-established procedure for measuring an oxidantlimit, the oxygen index, of plastics (See Test Method D2863)isreviewed, then variations commonly used to collect data

40、 foroxidant compatibility purposes are described. In the test, aseries of specimens is placed in a preadjusted oxidant mixtureand deliberately ignited. Specimens that do not “burn” areretested in higher concentrations. Specimens that do burn areretested in lower concentrations. When the operator is

41、confi-dent that the threshold has been determined by a suitablenumber and spread of negative tests below the threshold, thelowest positive is reported as the oxidant index.6.2 Similar test methods apply when the oxidant concentra-tion is held constant and the temperature, pressure or other keyfactor

42、 is varied. In some cases, apparatus modification orreplacement is necessary, such as a pressurized vessel isrequired to complete some tests (see Test Method G124).Relatively little work (1-18) has been done using oxidantsother than oxygen, diluents other than nitrogen, pressure,temperature, or othe

43、r properties as the variable parameter.7. Variations7.1 Anumber of variations of the procedure have been used.The principle variables have been oxidant, diluent, pressure,temperature, flow condition and flow direction. Relatively littlework has been done for most of these variables (1-18). Thereis s

44、ome qualitative and even quantitative understanding of themanner in which these variables affect the fire limits ofmaterials, but the understanding is largely incomplete. Finally,the database for most combinations of variables is small (onlyTest Method D2863-95 and Test Method G124 have significantd

45、atabases) and so the ability to draw strong conclusions islimited. Nonetheless, where data is obtained for two or morematerials, these data are useful to the evaluation of thosematerials. Care is necessary in comparing materials that havenot been tested in similar procedures.7.2 OxidantsChanging the

46、 oxidant may cause the greatestchanges in results for other constant conditions (1, 2, 3).Oxidants behave dramatically different, because their basicchemistry with differing materials is different. For example,even though nitrous oxide is a combination of nitrogen andoxygen, it behaves much differen

47、tly than a similar oxygen/nitrogen mixture. During combustion, nitrous oxide decom-poses to release heat that renders it more able to supportcombustion than a simple mixture. Fluorine is very reactiveand produces more gaseous product species which changes itsbehavior in higher purity oxidant. There

48、are data available invarying amounts for the oxidants: oxygen, nitrous oxide,fluorine, nitrogen trifluoride, and nitrogen (nitrogen is anoxidant in some cases, a diluent in others).7.3 DiluentsVarying diluents can have a significant effectalthough much less impressive than oxidant, pressure or evenf

49、low direction (1-8). Diluents thermal conductivity and heatcapacity appear to be the most significant properties. Reactivityis a second issue. For example, nitrogen does not participate inmost polymer combustions but can react with some metals andexhibit widely different diluent natures. Among the diluentsused to date are nitrogen, helium, argon, carbon dioxide, neon,and xenon.7.4 PressuresPressure has a dramatic effect on the firelimit (1, 4, 5, 8, 9, 10, 11). The role of pressure is complex, yetit is one of the most important variables because oxygensystems emp

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