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本文(ASTM D4867 D4867M-2009(2014) Standard Test Method for Effect of Moisture on Asphalt Concrete Paving Mixtures《潮湿对沥青混凝土铺面混合料影响的标准试验方法》.pdf)为本站会员(eventdump275)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 D4867 D4867M-2009(2014) Standard Test Method for Effect of Moisture on Asphalt Concrete Paving Mixtures《潮湿对沥青混凝土铺面混合料影响的标准试验方法》.pdf

1、Designation: D4867/D4867M 09 (Reapproved 2014)Standard Test Method forEffect of Moisture on Asphalt Concrete Paving Mixtures1This standard is issued under the fixed designation D4867/D4867M; the number immediately following the designation indicates theyear of original adoption or, in the case of re

2、vision, the year of last revision. A number in parentheses indicates the year of lastreapproval. A superscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This test method covers procedures for preparing andtesting asphalt concrete specimens for the pur

3、pose of measur-ing the effect of water on the tensile strength of the pavingmixture. This test method is applicable to dense mixtures suchas those appearing in the Table for Composition of BituminousPaving Mixtures in Specification D3515. This test method canbe used to evaluate the effect of moistur

4、e with or withoutantistripping additives including liquids and pulverulent solidssuch as hydrated lime or portland cement.1.2 The values stated in either SI units or inch-pound unitsin parentheses shall be regarded separately as standard. Thevalues in each system may not be exact equivalents; theref

5、ore,each system must be used independently of the other, withoutcombining values in any way.1.3 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 pract

6、ices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D979 Practice for Sampling Bituminous Paving MixturesD1074 Test Method for Compressive Strength of Bitumi-nous MixturesD1561 Practice for Preparation of Bituminous Mixture TestSpec

7、imens by Means of California Kneading CompactorD2041 Test Method for Theoretical Maximum SpecificGravity and Density of Bituminous Paving MixturesD2726 Test Method for Bulk Specific Gravity and Densityof Non-Absorptive Compacted Bituminous MixturesD3203 Test Method for Percent Air Voids in Compacted

8、Dense and Open Bituminous Paving MixturesD3387 Test Method for Compaction and Shear Properties ofBituminous Mixtures by Means of the U.S. Corps ofEngineers Gyratory Testing Machine (GTM)D3496 Practice for Preparation of Bituminous MixtureSpecimens for Dynamic Modulus Testing (Withdrawn2010)3D3515 Sp

9、ecification for Hot-Mixed, Hot-Laid BituminousPaving Mixtures (Withdrawn 2009)3D3549 Test Method for Thickness or Height of CompactedBituminous Paving Mixture SpecimensD3665 Practice for Random Sampling of Construction Ma-terialsD4013 Practice for Preparation of Test Specimens of Bitu-minous Mixture

10、s by Means of Gyratory Shear Compactor(Withdrawn 2013)3D4123 Test Method for Indirect Tension Test for ResilientModulus of Bituminous Mixtures (Withdrawn 2003)3D6926 Practice for Preparation of Bituminous SpecimensUsing Marshall Apparatus3. Summary of Test Method3.1 Potential for Moisture DamageThe

11、degree of suscep-tibility to moisture damage is determined by preparing a set oflaboratory-compacted specimens conforming to the job-mixformula without an additive. The specimens are compacted toa void content corresponding to void levels expected in thefield, usually in the 6 to 8 % range. The set

12、is divided into twosubsets of approximately equal void content. One subset ismaintained dry while the other subset is partially saturated withwater and moisture conditioned. The tensile strength of eachsubset is determined by the tensile splitting test. The potentialfor moisture damage is indicated

13、by the ratio of the tensilestrength of the wet subset to that of the dry subset.3.2 Additive EffectThe effect of an antistripping additiveis determined on a set of specimens containing an additiveprepared and tested as described in 3.1. The effect of anadditive dosage may be estimated by repeating t

14、he tests on setswith different additive dosages.3.3 Plant-Produced MixturesThe potential for moisturedamage or the effectiveness of an additive in a plant-produced1This test method is under the jurisdiction of ASTM Committee D04 on Roadand Paving Materials and is the direct responsibility of Subcomm

15、ittee D04.22 onEffect of Water and Other Elements on Asphalt Coated Aggregates.Current edition approved July 1, 2014. Published November 2014. Originallyapproved in 1988. Last previous edition approved in 2009 as D4867/D4867M 09.DOI: 10.1520/D4867_D4867M-09R14.2For referenced ASTM standards, visit t

16、he 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.3The last approved version of this historical standard is referenced onwww.astm.org.Copyright ASTM I

17、nternational, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States1mixture is determined on specimens that are laboratory com-pacted to expected field-level void content, divided into wetand dry subsets, and evaluated as described in 3.2.4. Significance and Use4.1 This

18、 test method can be used to test asphalt concretemixtures in conjunction with mixture design testing to deter-mine the potential for moisture damage, to determine whetheror not an antistripping additive is effective, and to determinewhat dosage of an additive is needed to maximize the effec-tiveness

19、. This test method can also be used to test mixturesproduced in plants to determine the effectiveness of additivesunder the conditions imposed in the field.5. Apparatus5.1 To prepare and compact the specimens use apparatusfrom any one of the following: Test Methods D1074, andD3387, Practice D3496, o

20、r Practices D1561, D4013, andD6926.5.2 Vacuum Pump or Water Aspirator in accordance withTest Method D2041.5.3 Manometer or Vacuum Gage in accordance with TestMethod D2041.5.4 Container, preferably Type F, of Test Method D2041.5.5 Balance in accordance with Test Method D2726.5.6 Water Baths Three:5.6

21、.1 One waterbath in accordance with Test MethodD2726.5.6.2 One bath capable of maintaining a temperature of 606 1.0C (140 6 1.8F) for 24 h, and5.6.3 One bath capable of maintaining a temperature of 256 1.0C (77 6 1.8F).5.7 Mechanical or Hydraulic Testing Machine capable ofmaintaining the required st

22、rain rate and measuring load withequal or better precision.5.8 Loading Strips in accordance with Test Method D4123.6. Preparation of Laboratory Test Specimens6.1 Make at least six specimens for each test, three to betested dry and three to be tested after partial saturation andmoisture conditioning.

23、6.2 Use specimens 100 mm (4 in.) in diameter and 62.5 mm(2.5 in.) high, in general, but specimens of other dimensionsmay be used if desired. When using aggregate larger than 25mm (1 in.), use specimens at least 150 mm (6 in.) in diameter.NOTE 1The user is cautioned that the specimen diameter has bee

24、ndetermined to influence both the tensile strength and the tensile strengthratio. The tensile strength and the tensile strength ratio values may bedifferent for 150mm specimens compared to 100mm specimens.6.3 Prepare mixtures in batches large enough to make atleast 3 specimens or, as an alternative,

25、 prepare a batch justlarge enough for 1 specimen. If theoretical maximum specificgravity is to be determined, use a batch large enough or preparea separate batch to provide a specimen for this purpose.6.4 When a liquid antistripping additive is used, heat asufficient quantity of asphalt cement for o

26、ne batch to 150 66C (300 6 10F) in a closed 1 L (1-qt) can in an oven. Addthe required quantity of additive and immediately mix, forapproximately 2 min, with a mechanical stirrer approximately25 mm (1 in.) from the bottom of the container. Maintain thetreated asphalt cement at 150 6 6C (300 6 10F) i

27、n theclosed can until it is used. Discard the treated asphalt cement ifnot used the same day it is prepared, or if allowed to cool sothat it requires reheating.6.5 When using a pulverulent solid antistripping additive ,use the addition procedure simulating the procedure expectedin the field. Follow

28、the procedure specified in either 6.5.1,6.5.2,or6.5.3.6.5.1 When dry powder is added to dry aggregate, dry,batch, and heat the mineral aggregate to 150 6 6C (300 610F). Add the required quantity of additive to the aggregate,and thoroughly mix the entire mass until a uniform distributionof additive i

29、s achieved. Take care to minimize the loss ofadditive to the atmosphere in the form of dust. After mixing,maintain the treated aggregate at the required mixing tempera-ture until it is used.6.5.2 When dry powder is added to damp aggregate, batchthe damp mineral aggregate, and adjust the moisture con

30、tent ofthe combined aggregate to the expected field moisture level.Add the required quantity of additive to the damp aggregate,and thoroughly mix the entire mass until a uniform distributionof additive is achieved. Take care to minimize the loss ofadditive to the atmosphere in the form of dust. Afte

31、r mixing,dry the treated aggregate, heat to the required mixingtemperature, and maintain at that temperature until it is used.6.5.3 When powder slurry is used, add the required quantityof additive to water using the powder to water ratio expected inthe field. Take care to minimize the loss of additi

32、ve to theatmosphere in the form of dust. To prevent settling, continu-ously mix the resulting slurry until it is used. Batch the dampmineral aggregate, adjust the moisture content as required in6.5.2, add the required quantity of slurry, and thoroughly mixthe entire mass until a uniform distribution

33、 of slurry isachieved. After mixing, dry the treated aggregate, heat to therequired mixing temperature, and maintain at that temperatureuntil used.6.6 Proportion, mix, and compact specimens in accordancewith one of the following: Test Methods D1074, D3387,Practice D3496, Practices D1561, D4013,orD69

34、26, and 6.6.1and 6.6.2.6.6.1 After mixing, stabilize the mixture temperature ofeach specimen at the required compaction temperature, in aclosed container, in an oven for 1 to 2 h. If preparing amulti-specimen batch, split the batch into single-specimenquantities before placing into the oven.6.6.2 Co

35、mpact the specimens to 7 6 1 % air voids, or a voidlevel expected in the field at the time of construction. This voidlevel can be obtained by adjusting the following: the static loadin double-plunger compaction; the number of blows in amarshall hammer compaction; the foot pressure, number ofD4867/D4

36、867M 09 (2014)2tamps, leveling load, or some combination in kneading com-paction; or the number of revolutions in gyratory compaction.Determine the exact procedure by trial for each mixture.6.6.3 Cool specimens in the mold to room temperature asrapidly as possible in a stream of moving air, extract

37、frommolds, then follow the procedure outlined in Section 8 within24 h.7. Preparation of Field Specimens7.1 Select a truck to be sampled in accordance with PracticeD3665.7.2 Secure a sample from the truck at the plant in accor-dance with Practice D979.7.3 Stabilize the mixture temperature to approxim

38、ately thetemperature found in the field when rolling begins. Maintainthis temperature in a closed container, in an oven if necessary,for approximately the time lapse between mixing and the startof actual rolling.7.4 Compact the specimens in accordance with 6.6.2, andcool and extract from the molds i

39、n accordance with 6.6.3.7.5 If specimens are not to be compacted in the fieldlaboratory, place the samples in a sealed container, transport tothe laboratory, and reheat to the temperature required in 7.3.Proceed with the steps in 7.4.NOTE 2Specimens made from plant-produced mixtures in accordancewit

40、h Section 7 may yield different results from specimens made fromlaboratory-produced mixtures of the same job mix made in accordancewith Section 6.8. ProcedureNOTE 3A data sheet that is convenient for use with this procedureappears in Appendix X1.8.1 Determine the theoretical maximum specific gravity

41、 inaccordance with Test Method D2041.8.2 Determine the specimen height in accordance with TestMethod D3549.8.3 Determine the bulk specific gravity in accordance withTest Method D2726, and express the volume of the specimenin cubic centimeters. The term (B-C) in Test Method D2726 isthe volume of the

42、specimen in cubic centimeters.8.4 Calculate the percent air voids in accordance with TestMethod D3203, and express the volume of air in cubiccentimeters. The volume of air is the volume of the specimenin 8.3 multiplied by the percent air voids.8.5 Sort the specimens into two subsets so that the aver

43、ageair voids of the two subsets are approximately equal. Store thesubset to be tested dry at room temperature.8.6 Partially saturate the subset to be moisture conditionedwith distilled water at room temperature using a vacuumchamber. If it is difficult to reach the minimum degree ofsaturation requir

44、ed in 8.6.3, the water used to saturate may beheated up to 60C (140F).8.6.1 Partially saturate, to the degree specified in 8.6.3,byapplying a partial vacuum such as 70 kPa or 525 mm Hg (20in. Hg) for a short time such as five min.NOTE 4Experiments with partial vacuum at room temperature indi-cate th

45、at the degree of saturation is very sensitive to the magnitude of thevacuum and practically independent of the duration. The level of vacuumneeded appears to be different for different mixtures.8.6.2 Determine the volume of the partially saturated speci-men in accordance with Test Method D2726. Dete

46、rmine thevolume of the absorbed water by subtracting the air-dry massof the specimen in 8.3 from the saturated surface-dry mass ofthe partially saturated specimen.8.6.3 Determine the degree of saturation by dividing thevolume of the absorbed water in 8.6.2 by the volume of airvoids in 8.4 and expres

47、s the result as a percentage. If thevolume of water is between 55 and 80 % of the volume of air,proceed to 8.7. If the volume of water is less than 55 %, repeatthe procedure beginning with 8.6.1 using a slightly higherpartial vacuum. If the volume of water is more than 80 %, thespecimen has been dam

48、aged and is discarded.NOTE 5If the average air voids of the saturated subset is less than6.5 %, a degree of saturation of at least 70 % is recommended.8.7 Moisture condition the partially saturated specimens bysoaking in distilled water at 60 6 1.0C (140 6 1.8F) for 24h.NOTE 6If a freeze-thaw condit

49、ioning cycle is desired, the followingprocedure is suggested instead of the procedure in 8.7. Wrap each of thepartially saturated specimens tightly with two layers of plastic film usingmasking tape to hold the wrapping if necessary. Place each wrappedspecimen into a leak-proof plastic bag containing approximately 3 mL ofdistilled water, and seal the bag with a tie or tape. Place the wrapped andbagged specimens into an air bath freezer at 18 6 2.0C (0.4 6 3.6F).After at least 15 h in the freezer, remove the specimens and immerse themin a water bath at 60

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