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本文(ASTM D7312-2010 1875 Standard Test Method for Determining the Permanent Shear Strain and Complex Shear Modulus of Asphalt Mixtures Using the Superpave Shear Tester (SST)《采用超级铺面剪切试验.pdf)为本站会员(arrownail386)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 D7312-2010 1875 Standard Test Method for Determining the Permanent Shear Strain and Complex Shear Modulus of Asphalt Mixtures Using the Superpave Shear Tester (SST)《采用超级铺面剪切试验.pdf

1、Designation: D7312 10Standard Test Method forDetermining the Permanent Shear Strain and ComplexShear Modulus of Asphalt Mixtures Using the SuperpaveShear Tester (SST)1This standard is issued under the fixed designation D7312; the number immediately following the designation indicates the year oforig

2、inal adoption or, in the case of revision, 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 standard provides performance-related test proce-dures for

3、 the determination of stiffness complex shear modulusand permanent shear strain of asphalt mixtures using theSuperpave Shear Tester (SST). This standard is applicable tothe testing and analysis of modified and unmodified asphaltmixtures.1.2 This standard is applicable to specimens prepared in alabor

4、atory or cored from a pavement for post-constructionanalysis. It is intended for use with specimens having thefollowing minimum dimensions:Nominal Maximum AggregateSize in Asphalt MixtureSpecimenDiameterSpecimenHeight19 mm 150 mm 50 mm12.5 mm, 9.5 mm, 4.75 mm 150 mm 38 mmNOTE 1Nominal maximum aggreg

5、ate size is defined in AASH-TO R35 as one sieve larger than the first sieve to retain more than 10 %of the total aggregate. Asphalt mixtures with a nominal maximumaggregate size greater than 19 mm can be tested using this procedure, butit is not recommended. The larger aggregate sizes may significan

6、tlyinterfere with the material response, thereby affecting the repeatability ofthe test.NOTE 2The SST shall accommodate test specimens of 150 mm indiameter and 50 mm in height. The specimen height of 50 mm ispreferred, but may not be available in roadway cores where layerthickness may be less. If th

7、e specimen height is less than 50 mm, useplaten to platen fixturing (Linear Variable Differential Transformers(LVDTs) or extensometers). Specimen heights less than 38 mm cannot betested because of equipment constraints.NOTE 3The diameter-to-height ratio for shear test specimens shouldbe 3:1 or great

8、er. This effectively eliminates the use of 100 mm diameterspecimens (because of minimum height requirement for testing discussedin Note 2).1.3 The between laboratory reproducibility of this testmethod has not been determined, therefore this standard shouldnot be used for acceptance or rejection of a

9、 material forpurchasing purposes.1.4 The values stated in SI units are to be regarded asstandard. No other units of measurement are included in thisstandard.1.5 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user o

10、f 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:2D75 Practice for Sampling AggregatesD140 Practice for Sampling Bituminous MaterialsD979 Practice for Sampling Bitum

11、inous Paving MixturesD2041 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 CompactedDense and Open Bituminous

12、Paving MixturesD3549 Test Method for Thickness or Height of CompactedBituminous Paving Mixture SpecimensD5361 Practice for Sampling Compacted Bituminous Mix-tures for Laboratory TestingD6752 Test Method for Bulk Specific Gravity and Densityof Compacted Bituminous Mixtures Using AutomaticVacuum Seali

13、ng MethodD6857 Test Method for Maximum Specific Gravity andDensity of Bituminous Paving Mixtures Using AutomaticVacuum Sealing MethodD6925 Test Method for Preparation and Determination ofthe Relative Density of Hot Mix Asphalt (HMA) Speci-mens by Means of the Superpave Gyratory CompactorE1 Specifica

14、tion for ASTM Liquid-in-Glass ThermometersE4 Practices for Force Verification of Testing Machines1This test method is under the jurisdiction of ASTM Committee D04 on Roadand Paving Materials and is the direct responsibility of Subcommittee D04.26 onFundamental/Mechanistic Tests.Current edition appro

15、ved Dec. 1, 2010. Published December 2010. Originallyapproved 2007. Last published in 2007 as D731207. DOI: 10.1520/D7312-10.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information,

16、refer to the standards Document Summary page onthe ASTM website.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.2.2 AASHTO Standards:3AASHTO R35 Superpave Volumetric Design for Hot MixAsphalt (HMA)AASHTO R30 Short and Long Term Aging

17、 of Hot MixAsphalt (HMA)3. Terminology3.1 Definitions:3.1.1 complex shear modulusa complex number that de-fines the relationship between shear stress and strain for alinear viscoelastic material, G*.3.1.2 permanent shear strainthe non-recoverable shearstrain resulting from a shear load.3.1.3 phase a

18、nglea measure of the time lag between theapplied stress and resulting strain, or applied strain andresulting stress, in a viscoelastic material.4. Summary of Test Method4.1 This test method includes two procedures.4.1.1 In the frequency sweep test, the test initiates from azero shear load and zero s

19、hear strain. Repeated sinusoidal shearloading oscillates around zero through ten frequencies at agiven temperature while a varying axial load is applied toprevent dilation of the specimen. The loads and deformationsare used to calculate the complex shear modulus and phaseangle of the specimen at eac

20、h frequency.4.1.2 In the repeated shear at constant height test, a repeatedhaversine shear stress is applied to the specimen while avarying axial load prevents dilation. The accumulated sheardeformation at the end of the test is measured to determine thepermanent shear strain.5. Significance and Use

21、5.1 The test procedures and associated analysis techniquesdescribed in this method can be used to determine complexshear modulus and permanent shear strain of asphalt mixtures.The shear frequency sweep test at constant height can be usedto determine the complex shear modulus of a mixture. Therepeate

22、d shear test at constant height can be used to determinepermanent shear strain under repeated loading.NOTE 4The complex shear modulus is used to characterize the shearbehavior of the mixture, and the permanent shear strain relates topavement rutting.6. Apparatus6.1 Shear Test SystemThe shear test sy

23、stem shall consistof a loading device, specimen deformation measurementequipment, an environmental chamber, and a control and dataacquisition system. At a minimum, it shall accommodate testspecimens 150 mm in diameter and 38 to 50 mm in height.6.1.1 Loading DeviceThe loading device shall be capableo

24、f simultaneously applying both vertical and horizontal loadsto a specimen. It shall also be capable of applying static,ramped (increasing or decreasing), and repetitive loads ofvarious waveforms. At a minimum, the loading device shall becapable of applying horizontal shear load pulses in a haversine

25、wave form with a load duration of 0.1 s with 0.6 s between loadpulses. Loading shall be provided by two hydraulic actuators(one each horizontal and vertical) and shall be controlled byclosed-loop feedback using either stress or strain controlthroughout the entire range of frequencies and temperature

26、s.The loading device shall be capable of meeting the minimumrequirements specified in Table A1.1.6.1.2 Environmental ChamberThe environmental cham-ber shall be capable of maintaining the temperature of the testspecimen as specified in Table A1.1 during the testing se-quence.6.1.3 Data Acquisition an

27、d Control SystemThe data ac-quisition and control system shall automatically control user-selected measurement parameters, within the accuracy speci-fied in TableA1.1, during the testing sequence, and shall recordload cycles, applied horizontal and vertical loads, specimendeformation in two directio

28、ns (vertical and horizontal), envi-ronmental conditions, and the required frequency of datasampling.At the conclusion of the test, the data acquisition andcontrol system shall provide all applicable test data. The loadshall be measured by load cells, and the axial and sheardeformations shall be meas

29、ured by Linear Variable DifferentialTransformers (LVDTs) meeting the requirements of TableA1.1.NOTE 5The user can view the wave or pulse parameters on theoscilloscope during the test or plot the raw data after the test to confirmthat the test met the user-selected load and strain levels.6.2 Conditio

30、ning ChamberThe conditioning chambershall be capable of maintaining the specimen conditioningtemperatures as specified in Table A1.1.6.3 Platen-Specimen Assembly Device (Optional)Theplaten-specimen assembly device is used to facilitate bondingthe specimen to the loading platens with adhesive. The de

31、viceshall maintain the platens in a parallel position (relative to eachother) during the gluing operation. The platens must remainparallel so that stresses do not develop in the specimen whenthe specimen-platen assembly is clamped in the test system. Ata minimum, the device shall accommodate test sp

32、ecimens 150mm in diameter with a height of 38 to 50 mm.6.4 Aluminum Loading PlatensTop and bottom aluminumloading platens at least 6.35 mm greater in diameter than thediameter of the specimen to be tested and at least 20 mm thick.The bearing face of each platen shall be planar to 0.025 mmacross the

33、entire surface.6.5 AdhesiveQuick-set adhesive with a minimum hard-ened modulus of 2000 MPa for bonding the platens to thespecimen ends.NOTE 6Devcon410240 5-Minute Plastic Steel Epoxy Cement andDevcon410110 2-Hour Plastic Steel Epoxy Cement or equivalents havebeen used satisfactorily. A ruggedness ex

34、periment comparing these twoepoxies showed that glue type was not significant53Available from American Association of State Highway and TransportationOfficials (AASHTO), 444 N. Capitol St., NW, Suite 249, Washington, DC 20001,http:/www.transportation.org.4”Devcon” and all its related uses and terms

35、are trademarked and copyright ITWDevcon, 685 Galt Industrial Blvd. City: St. Louis State: MO ZIP: 63132-1021.5Anderson and McGennis, Journal of the Association of Asphalt PavingTechnologists, Vol 72, 2003.D7312 1026.6 ThermometerA calibrated liquid-in-glass thermom-eter of suitable range with subdiv

36、isions readable to 0.1C(0.2F) or any other thermometric device of equal accuracy,precision, and sensitivity shall be used. Thermometers shallconform to the requirements of Specification E1.7. Test Specimens7.1 Prepare test specimens according to 7.2, 7.3 or 7.4,asappropriate. Test at least three spe

37、cimens for each procedure (Aor B).NOTE 7Testing additional samples, typically five total, will produce amore accurate test result.7.2 Laboratory-Mixed, Laboratory-Compacted (LMLC)SpecimensSample asphalt binder and aggregates in accor-dance with Practices D140 and D75, respectively. Use theappropriat

38、e proportions of asphalt binder and aggregates ac-cording to the final asphalt mix design.7.2.1 Prepare aggregate batches of the appropriate mass toproduce a compacted specimen 150 mm in diameter and135 6 5 mm in height at the appropriate air void content. Heatthe aggregate batches to the appropriat

39、e mixing temperature.NOTE 8Appendix X1 contains information on the calculation of theappropriate aggregate batch weight to achieve the correct specimendimension at the proper percentage of air voids.7.2.2 Heat the asphalt binder to the appropriate mixingtemperature. Mix the correct proportions of as

40、phalt binder andcombined aggregates to match the asphalt mix design.7.2.3 Condition the asphalt mixture for 4 h 6 5 min at 1356 3C in accordance with AASHTO R30.7.2.4 Compact the asphalt mixture specimen following TestMethod D6925 to produce test specimens with the required airvoids.Test Air Voids i

41、n Test SpecimenShear Frequency Sweep (Procedure A) 7.0 6 0.5 %Repeated Shear at Constant Height (Procedure B) 3.0 6 0.5 %NOTE 9Compaction procedures other than the Superpave gyratorycompactor and other target air void percentages may be used. However,the user should be careful with comparing asphalt

42、 mixtures with differenttarget air voids or compaction. The test procedures and analyses aresensitive to both the percentage of air voids and the compactionprocedure.NOTE 10Specimens are often compacted to a target air void percent-age that is higher than the anticipated percentage of air voids in t

43、he cut testspecimen. This is done because cutting the top and bottom of a compactedspecimen removes lower density material, thereby raising the density(lowering the air voids) of the test specimen. The magnitude of thedifference between the target percentage of air voids for the compactedspecimen an

44、d the target percentage of air voids for the test specimen isdependent upon the nominal maximum aggregate size of the mixture,mixture gradation and other factors. Coarse mixes, or mixes with a largernominal maximum aggregate size, tend to have greater differencesbetween the compacted specimen air vo

45、ids and the test specimen air voids.In general, a 1.0 % offset (compact to a target of 4.0 % air voids or 8.0 %air voids) should be sufficient to achieve the appropriate percentage of airvoids in the test specimen.7.2.5 Allow the compacted mixture specimens to coolcompletely to room temperature. Cut

46、 the specimens to theproper test dimensions. Determine and record the height of thetest specimens in accordance with Test Method D3549.Toverify that the specimen faces are parallel, determine theminimum and maximum height of each individual specimen. Ifthe difference between the minimum and maximum

47、height ismore than 2.0 mm, then discard that specimen and prepareanother.7.2.6 Determine the maximum specific gravity of the mix-ture in accordance with Test Method D2041 or D6857 and thebulk specific gravity of each test specimen in accordance withTest Method D2726 or D6752. Calculate the air void

48、content ofeach specimen in accordance with Test Method D3203.7.3 Field-Mixed, Laboratory-Compacted (FMLC)SpecimensObtain HMA samples in accordance with PracticeD979. Compact specimens according to Test Method D6925 tothe appropriate percentage of air voids (see 7.2.4 and Notes8-10).7.3.1 Allow the c

49、ompacted mixture specimens to coolcompletely to room temperature. Cut the specimens to theproper test dimensions. Determine and record the height of thetest specimens in accordance with Test Method D3549.Toverify that the specimen faces are parallel, determine theminimum and maximum height of each individual specimen. Ifthe difference between the minimum and maximum height ismore than 2.0 mm, then discard that specimen and prepareanother.7.3.2 Determine the maximum specific gravity of the mix-ture in accordance with Test Method D2041 or D6857 and thebulk s

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