ASTM F2732-2011 Standard Practice for Determining the Temperature Ratings for Cold Weather Protective Clothing《确定寒冷天气防护服温度额定值的标准操作规程》.pdf

1、Designation: F2732 11Standard Practice forDetermining the Temperature Ratings for Cold WeatherProtective Clothing1This standard is issued under the fixed designation F2732; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year o

2、f last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.INTRODUCTIONManufacturers of cold weather protective clothing want consumers to be thermally comfortablewhen wearing their produ

3、cts. Therefore, they want to indicate the amount of warmth (that is,insulation) their products will provide to consumers at the point of sale. This is often expressed as atemperature rating on product labels and in product descriptions in catalogs. A temperature rating iscommonly understood to mean

4、the lowest air temperature at which the average adult person will havean acceptable level of thermal comfort when wearing the product. Although it is not always stated onlabels or in catalogs, manufacturers are assuming that consumers will wear the appropriate amount ofclothing with the cold weather

5、 garments.Heated manikins can be used to measure the thermal resistance (insulation) and evaporativeresistance of clothing ensembles in accordance with Test Methods F1291 and F2370, respectively. Thethermal insulation value of a cold weather protective ensemble can be used in heat loss models toesti

6、mate the thermal comfort of people in cold environments. This approach has already been used forsleeping bags (see EN 13537).1. Scope1.1 This standard practice covers the determination of thetemperature rating of cold weather protective clothing en-sembles. It involves measuring the insulation value

7、 of aclothing ensemble with a heated manikin in accordance withTest Method F1291 and using a heat loss model to predict thelowest environmental temperature for comfort.1.2 The predictive model used in this standard estimates theevaporative heat loss from a person wearing cold weatherclothing as oppo

8、sed to measuring the evaporative resistance ona sweating manikin. If a person is active and gets overheated ina cold environment, he/she can adjust the garments in order todissipate excess heat.1.3 The temperature ratings estimated by this standardpractice are guidelines for thermal comfort that are

9、 designed toprotect people from hypothermia when wearing cold weatherprotective garments. However, localized cooling, discomfort,and even frostbite could still occur at extremely low tempera-tures because clothing insulation is not evenly distributed overthe body surface. In addition, some body part

10、s (for example,ears, fingers, toes) have a high surface area relative to theirmass, and consequently lose heat at a faster rate than otherparts of the body.1.4 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of

11、 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:2F1291 Test Method for Measuring the Thermal Insulationof Clothing Using a Heated ManikinF2370 Test Method for Measur

12、ing the Evaporative Resis-tance of Clothing Using a Sweating Manikin2.2 Other Standards:3EN 13537 Requirements for Sleeping BagsANSI/ASHRAE 55-2004 Thermal Environmental Condi-tions for Human Occupancy1This practice is under the jurisdiction of ASTM Committee F23 on PersonalProtective Clothing and E

13、quipment and is the direct responsibility of SubcommitteeF23.60 on Human Factors.Current edition approved June 1, 2011. Published June 2011. Originallyapproved in 2009. Last previous edition approved in 2009 as F2732 - 09. DOI:10.1520/F2732-11.2For referenced ASTM standards, visit the ASTM website,

14、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.,4th Floor, New York, NY 10036, http:/www

15、.ansi.org.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.3. Terminology3.1 Definitions:3.1.1 clo, na unit of thermal resistance (insulation) equalto 0.155 K-m2/W.3.1.1.1 DiscussionThe value of the clo was selected asroughly the insu

16、lation value of typical indoor clothing, whichshould keep a resting man (producing heat at the rate of 58W/m2) comfortable in an environment at 21C, air movement0.1 m/s.3.1.2 clothing ensemble, na group of garments worntogether on the body at the same time.3.1.3 temperature rating, nthe lowest envir

17、onmental tem-perature at which a person can remain thermally neutral whilewearing a particular clothing ensemble.3.1.4 thermal comfort, nthat condition of mind whichexpresses satisfaction with the thermal environment and isassessed by subjective evaluation (see ANSI/ASHRAE 55-2004).3.1.5 thermal ins

18、ulation, nthe resistance to dry heattransfer by way of conduction, convection, and radiation.3.1.5.1 Discussionthe following insulation values can bedetermined with a thermal manikin using clo units:Ia= thermal resistance (insulation) of the air layer on thesurface of the nude manikin.It= total ther

19、mal resistance (insulation) of the clothingand surface air layer around the manikin.Icl= intrinsic thermal resistance (insulation) of the cloth-ing.Total insulation values are measured directly with a manikin.Intrinsic clothing insulation values are determined by subtract-ing the air layer resistanc

20、e around the clothed manikin from thetotal insulation value for the ensemble.4. Significance and Use4.1 This practice can be used to measure the insulationprovided by different cold weather clothing systems using aheated manikin (see Test Method F1291) and to predict thetemperature rating for comfor

21、t at two activity levels usingwhole body heat loss models.4.1.1 The temperature rating is for an ensemblenot anindividual garment. However, manufacturers want to label coldweather garments with a temperature rating to help consumersselect the product that will best meet their needs. Therefore, thest

22、andard is limited to garments that cover a substantial amountof body surface area such as jackets, coats, and insulated pants,coveralls, or snow suits. The temperature ratings of head wear,footwear, and hand wear cannot be determined with thispractice.4.1.2 The temperature predictions determined by

23、this stan-dard practice are for adults only. The physiology of children issignificantly different from that of adults, so a modified heatloss model would need to be used to predict the comfort ofchildren wearing outdoor clothing.44.1.3 The temperature ratings determined by this standardpractice and

24、listed on garment labels are only guidelines forcomfort and will be affected by the garments consumers wearwith them, their activity level during wear, and individualdifferences in the physiological characteristics of people (forexample, gender, age, body mass, etc.).5. Calibration of Manikin5.1 Man

25、ikinUse a thermal manikin as described in TestMethod F1291.5.2 CalibrationCalibrate the manikin using the proce-dures in Test Method F1291.5.2.1 The intrinsic clothing insulation value of the TestMethod F1291 calibration ensemble (Icl) should be 0.79 clo,610 % before proceeding with this method.6. B

26、ase Ensembles6.1 Cold weather garments are worn with other garments aspart of an ensemble. Therefore, they need to be tested that wayon the manikin in order to determine the temperature forcomfort. All cold weather jackets, coveralls, and jacket/pantsets (where the garments are designed to be worn t

27、ogether)shall be tested with a lightweight base ensemble that representsthe minimum amount of clothing that a reasonable personmight wear with the cold weather clothing (Base Ensemble#1). Cold weather pants shall be tested with a base jacket addedto the base ensemble (Base Ensemble #2). The size of

28、thegarments shall be selected based on the measurements of themanikin.6.2 The garments used in Base Ensemble #1 are:6.2.1 ShirtLong-sleeve mock turtle neck shirt, interlockknit, 100 % cotton, 214 g/m2(6.3 oz/yd2); worn with shirttailover jeans.6.2.2 JeansDenim 5-pocket jeans, 100 % cotton 397g/m2(11

29、.7 oz/yd2).6.2.3 Mens Underwear BriefsJersey knit briefs, 100 %cotton, 180 g/m2(5.3 oz/yd2); jockey style that fits snugly atthe waist and legs (from Test Method F1291).6.2.4 Mens SocksBasic knit sock that covers foot andextends up the calf no more than 25.4 cm (10 in.) from thebottom of the heel. S

30、ocks shall be composed of at least 75 %cotton and shall weigh 65 6 10 g each (from Test MethodF1291).6.2.5 Athletic ShoesFabric/soft leather and soft sole.6.2.6 Gloves or MittensInsulated knitted fleece gloves ormittens, 100% polyester, all layers 454 g/m2(13.4 oz/yd2);cuffs worn under jacket sleeve

31、s.6.2.7 HatKnitted fleece hat, 100 % polyester 129g/m2(3.8 oz/yd2); worn pulled down to eye brows.6.2.8 The intrinsic clothing insulation value (Icl) of BaseEnsemble #1 should be 0.80 clo, 610 %.6.2.8.1 The insulation value of the cold weather ensembleswould be higher (and the predicted temperature

32、ratings lower)if a thicker base ensemble was used. However, many peoplewill not wear more clothing with the cold weather garments,and some people might not wear gloves, or a hat, or both.Consequently, this standard practice is specifying a lightweightbase ensemble only. Other garments such as therma

33、l underwearcould be substituted for the knit shirt and jeans as long as the4McCullough, Elizabeth A., Eckels, Steve, and Harms, Craig. “DeterminingTemperature Ratings for Childrens Cold Weather Clothing,” Applied Ergonomics,Vol. 40, 2009, pp. 870-877.F2732 112intrinsic insulation value is 0.80 clo,

34、610 % and the head,hands, and feet are covered in the same way.6.3 The garments used in Base Ensemble #2 are:6.3.1 All of the garments in Base Ensemble #1.6.3.2 Aquilted fiberfill jacket, 100 % nylon shell and lining,100 % polyester fiberfill insulation, all layers 339 g/m2(10.0oz/yd2). The stow-awa

35、y hood shall not be placed on the headduring the test; it should stay stowed in the collar.6.3.3 The intrinsic clothing insulation value (Icl) of BaseEnsemble #2 should be 1.35 clo, 610 %.7. Sampling and Test Specimens7.1 SamplingIt is acceptable to test one sample (that is,specimen) of each garment

36、 type. However, there may bevariability in garments made of fiberfill or down insulations, soit is recommended to test two or three specimens and averagetheir insulation values prior to modeling.7.2 Specimen Size and FitSelect the size of garments thatwill fit the manikin appropriately (that is, the

37、 way the manu-facturer designed them to be worn on the human body duringtheir intended end use).8. Manikin Procedure8.1 Environmental Test ConditionsThe test conditionsgiven below shall be standard for all tests unless otherwisestated.8.1.1 Air TemperatureThe air temperature shall be 5 to20C during

38、a test. The air temperature shall be selected withinthat range so that a minimum heat flux of 20 W/m2from themanikins segments is maintained and a skin temperature of35C on each segment is maintained. A temperature at the highend of the range will be needed for the nude test and the baseensemble tes

39、t. An air temperature at the low end of the rangewill be needed for heavy cold weather ensembles.8.1.2 Air VelocityThe air velocity shall be 0.4 6 0.1 m/sduring a test.8.1.3 Relative HumidityThe relative humidity of the en-vironment has little effect on measurements of insulation understeady-state c

40、onditions; therefore, it does not need to becontrolled at a specific level. Relative humidity does have to bemonitored to make sure that it does not change more than 4 %during a test.8.2 Mean Skin Temperature of ManikinThe mean skintemperature shall be maintained at 35 6 0.2C during a 30 mintest.8.3

41、 Nude TestMeasure the insulation (Ia) provided by theair layer surrounding the nude manikin by conducting a testusing the same environmental conditions and procedures givenfor the cold weather ensemble tests (see 8.5).8.4 Base Ensemble TestMeasure the total insulation (It)provided by Base Ensemble #

42、1 (and Base Ensemble #2 if coldweather pants will be evaluated) by conducting a test using thesame environmental conditions and procedures given for thecold weather ensemble tests (see 8.5).8.5 Cold Weather Ensemble TestDress the standing mani-kin in Base Ensemble #1 or #2 and the cold weather garme

43、nt(such as a jacket, coverall, or pants) or garments (such as awork jacket and pants set) to be tested. Garments with a hoodshould be tested with the hood drawn up over the hat andtightened around the face. Position the manikin so that it ishanging vertically a few inches off the floor with its arms

44、 at itssides.8.5.1 Conduct the test in accordance with procedures givenin Test Method F1291.8.5.2 Replication of TestsConduct three replications ofthe test, with at least 15 minutes in between test periods. Ifmore than one sample is available of each garment type, testeach separately one time.9. Ins

45、ulation Calculations9.1 The parallel method of calculating the total thermalresistance (insulation) shall be used, where the area-weightedtemperatures of all body segments are summed and averaged,the power levels to all body segments are summed, and theareas are summed before the total resistance is

46、 calculated.Calculate the total thermal insulation of the clothing system (It)to the nearest 0.01 clo, using Eq 1: (6.45 is a units constant)It5 Ts Ta! A 6.45 / H (1)where:It= total thermal resistance (insulation) of the clothingensemble and surface air layer (clo),A = area of the manikins surface (

47、m2),Ts= temperature at the manikin surface (C),Ta= temperature in the air flowing over the clothing (C),andH = power required to heat manikin (W).9.2 Determine the average total insulation value (It)oftheensemble by averaging the values from the three replications ofthe test.9.3 Determine the averag

48、e intrinsic insulation value of theclothing alone (Icl) to the nearest 0.01 clo, using the mean Itvalue and Eq 2:Icl5 It Ia/fcl! (2)where:Icl= intrinsic clothing insulation (clo),It= total thermal resistance (insulation) of the clothingensemble and surface air layer (clo),Ia= thermal resistance of t

49、he air layer on the surface of thenude manikin (clo), andfcl= clothing area factor (dimensionless).9.3.1 Use the value of 1.25 for the fclof Base Ensemble #1.9.3.2 Use the value of 1.30 for the fclof Base Ensemble #2.9.3.3 Use the value of 1.35 for the fclof cold weatherclothing ensembles. The fclvalue for each ensemble can beestimated using a photographic method, but it is very timeconsuming. Therefore, an average value for cold weatherclothing ensembles is used here.9.4 Calculate the standardized total insulation value (It,s)ofthe cold w