ASTM D7552-2009(2014) 6600 Standard Test Method for Determining the Complex Shear Modulus &40 G &41 Of Bituminous Mixtures Using Dynamic Shear Rheometer《采用动态剪切流变仪测定沥青混合物的复数切变模量 (G .pdf

1、Designation: D7552 09 (Reapproved 2014)Standard Test Method forDetermining the Complex Shear Modulus (G*) OfBituminous Mixtures Using Dynamic Shear Rheometer1This standard is issued under the fixed designation D7552; the number immediately following the designation indicates the year oforiginal adop

2、tion 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 test method covers the determination of the com-plex shear modulus

3、of bituminous mixtures using torsionrectangular geometry on a dynamic shear rheometer (DSR). Itis applicable to bituminous mixtures having complex shearmodulus values greater than1104Pa when tested over arange of temperatures from 10C to 76C at frequencies of 0.01to 25 Hz and strains of 0.001 % to 0

4、.1 %. The determination ofcomplex shear modulus is typically determined at 20C to70C at 0.01% strain at 10 discrete frequency values covering0.01 to 10 Hz. From these data, temperature or frequencymaster curves can be generated as required. This test method isintended for determining the complex she

5、ar modulus of bitu-minous mixtures as required for specification testing or qualitycontrol of bituminous mixture production.1.2 This test method is appropriate for laboratory preparedand compacted mixtures, field produced and laboratory com-pacted mixtures or field cores, regardless of binder type o

6、rgrade and regardless of whether RAP is used in the mixture.Due to the geometry of the specimens being tested this testmethod is not applicable to open-graded or SMA mixtures. Ithas been found to be appropriate for dense-graded mixtures,whether coarse- or fine-graded, with 19 mm or smaller nominalma

7、ximum aggregate size.1.3 The between-laboratory reproducibility of this testmethod is being determined and will be available on or beforeJune 2012. Therefore, this test method should not be used foracceptance or rejection of materials for purchasing purposes.1.4 The values stated in SI units are to

8、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 of this standard to establish appro-priate safety and health practices and

9、determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2C670 Practice for Preparing Precision and Bias Statementsfor Test Methods for Construction MaterialsD140 Practice for Sampling Bituminous MaterialsD2041 Test Method for Theoretical Maximum

10、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 Paving MixturesD3666 Specification for Minimum Requirements for

11、 Agen-cies Testing and Inspecting Road and Paving MaterialsD6752 Test Method for Bulk Specific Gravity and Densityof Compacted Bituminous Mixtures Using AutomaticVacuum Sealing MethodD6857 Test Method for Maximum Specific Gravity andDensity of Bituminous Paving Mixtures Using AutomaticVacuum Sealing

12、 MethodD6925 Test Method for Preparation and Determination ofthe Relative Density of Hot Mix Asphalt (HMA) Speci-mens by Means of the Superpave Gyratory CompactorD6926 Practice for Preparation of Bituminous SpecimensUsing Marshall ApparatusD7175 Test Method for Determining the Rheological Prop-ertie

13、s of Asphalt Binder Using a Dynamic Shear Rheom-eterD7312 Test Method for Determining the Permanent ShearStrain and Complex Shear Modulus of Asphalt MixturesUsing the Superpave Shear Tester (SST)E77 Test Method for Inspection and Verification of Ther-mometersE563 Practice for Preparation and Use of

14、an Ice-Point Bathas a Reference Temperature1This 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 approved Aug. 1, 2014. Published November 2014. Originallya

15、pproved in 2009. Last previous edition approved in 2009 as D7552 09. DOI:10.1520/D7552-09R14.2For 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

16、Summary page onthe ASTM website.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States1E644 Test Methods for Testing Industrial Resistance Ther-mometers2.2 Other Standards:DIN Standard 43760 Standard for Calibration of PlatinumResistance The

17、rmometers33. Terminology3.1 Definitions of Terms Specific to This Standard:3.1.1 asphalt binder, nan asphalt-based cement that isproduced from petroleum residue either with or without theaddition of non-particulate modifiers.3.1.2 calibration, na process that establishes the relation-ship (traceabil

18、ity) between the results of a measurementinstrument, measurement system, or material measure and thecorresponding values assigned to a reference standard. Cali-bration is typically performed by the manufacturer or anexternal commercial calibration service.3.1.3 complex shear modulus (G*), na complex

19、 numberthat is defined by the ratio of shear stress to shear strain.3.1.4 dummy test specimen, na rectangular prismatic orcylindrical specimen of bituminous mix prepared as discussedin Section 9.2, into which a small hole is drilled and into whicha PRT wire is inserted. The dummy specimen is then mo

20、untedin the torsion fixture of the DSR for the purpose of determiningthe temperature in the bituminous mixture. In addition thedummy specimen can be used to ascertain the amount of timeneeded to bring a test specimen to the appropriate testtemperature.3.1.4.1 DiscussionThe dummy test specimen is not

21、 usedto measure the modulus characteristics of the bituminousmixture but is used to determine temperature corrections andequilibrium times.3.1.5 loading cycle, nrefers to the application of sinusoi-dal stress or strain loading for a specified duration.3.1.6 shear stress, nthe force per unit area tha

22、t producesthe flow.3.1.7 portable thermometer, nrefers to an electronic de-vice that is separate from the dynamic shear rheometer and thatconsists of a detector (probe containing a thermocouple orresistive element), associated electronic circuitry, and readoutsystem.3.1.8 reference thermometer, nref

23、ers to a NIST-traceableliquid-in-glass or electronic thermometer that is used as alaboratory standard.3.1.9 temperature correction, ndifference in temperaturebetween the temperature indicated by the DSR and the testspecimen as measured by the portable thermometer insertedbetween the test plates.3.1.

24、10 thermal equilibrium, ncondition where the tem-perature of the test specimen mounted between the test platesis constant with time.3.1.11 verification, na process that establishes whether theresults of a previously calibrated measurement instrument,measurement system, or material measure are stable

25、. Usuallyperformed internally within the operating laboratory.4. Summary of Test Method4.1 This standard contains the procedure used to measurethe complex shear modulus of a bituminous mixture using aDSR in oscillatory mode and using torsional rectangulargeometry. The DSR must be temperature-control

26、led using aforced air system.4.2 The standard is suitable for use when the complex shearmodulus is greater than1104Pa at the test temperature. Thecomplex shear modulus is typically determined at 20C to70C, although other test temperatures may be used.4.3 Test specimens, nominally 49 6 2 mm in length

27、, 12 62 mm in width and 9 6 1.5 mm in thickness may be cut fromgyratory or Marshall laboratory specimens or from field cores(see Figs. 1-3). Specimens can be obtained from bituminousmixture samples compacted using other devices as long as it ispossible to determine the air voids of the mixture sampl

28、es. Thetest specimens are mounted with the 49 6 2 mm lengthforming a vertical dimension in the DSR.4.4 During testing, one of the fixtures4is rotated withrespect to the other at a pre-selected % strain and a range offrequencies at the selected temperatures. The test shall beconducted at 0.01 % strai

29、n unless otherwise stated. The %strain stipulated in this test method has been found to produceacceptable results for the bituminous materials investigated todate.NOTE 1Different strain values, within the capabilities of individualequipment, may be selected for testing materials beyond the scope oft

30、hose tested to date. Regardless of % strain or test temperatures chosen ortest materials investigated, the basic testing process described herein willnot change.4.5 The test specimen is maintained at the test temperature60.1C by enclosing the upper and lower fixtures in athermally controlled environ

31、mental test chamber.5. Significance and Use5.1 The complex shear modulus of bituminous mixtures is afundamental property of the material. Test results at criticaltemperatures (Tcritical) are used for specifications for somemixes. Mixtures with stiffer binders, aged mixtures, mixtureswith higher amou

32、nts of fines (material finer than 75), andmixtures with lower voids all tend to have higher complexshear modulus values than mixtures with less stiff binders,unaged mixes, mixtures with low levels of fines and higher airvoids. In general, mixtures with higher complex shear modulusvalues at a given s

33、ervice temperature will exhibit lowerpermanent deformation values than similar mixtures tested atthe same temperature that have lower complex shear modulusvalues.3Available from Beuth Verlag GmbH (DIN- DIN Deutsches Institut furNormung e.V.), Burggrafenstrasse 6, 10787, Berlin, Germany, http:/www.en

34、.din.de.4Depending upon whether a stress or strain controlled rheometer is being used,either the upper or lower fixture will be the one which is rotated. This test methodis applicable to both stress and strain controlled rheometers. When a stresscontrolled rheometer is used, the test is performed in

35、 strain controlled mode.D7552 09 (2014)2FIG. 1 Schematic of Preparing Torsion Rectangular SpecimensFIG. 2 Sample Preparation to Obtain 50-mm Wide by 12-mm Thick Rectangular SpecimenD7552 09 (2014)3NOTE 2The quality of the results produced by this standard aredependent on the competence of the person

36、nel performing the procedureand the capability, calibration, and maintenance of the equipment used.Agencies that meet the criteria of Practice D3666 are generally consideredcapable of competent and objective testing/sampling/inspection/etc. Usersof this standard are cautioned that compliance with Pr

37、actice D3666 alonedoes not completely assure reliable results. Reliable results depend onmany factors; following the suggestions of Practice D3666 or somesimilar acceptable guideline provides a means of evaluating and control-ling some of those factors.6. Interferences6.1 Due to the nature of test g

38、eometry this test cannot beused to determine the complex shear modulus of rectangularspecimens obtained from SMA (Stone Mastic or MatrixAsphalt) or OGFC (Open Graded Friction Course) mixtures.Without confining pressure these specimens fall apart whenbrought to test temperature. At this point in time

39、 there is nosuitable method for imparting confining pressure on the testspecimens.6.1.1 The calculation of the complex shear modulus fromthe data obtained from the DSR is highly dependent upon anaccurate measurement of the dimensions of the test specimen.In the procedure, the length of the test spec

40、imen is the gapdistance between the mounting fixtures after the zero gapmeasurement of the torsion fixture has been made. Once thetest specimen is mounted in the fixture, the length of specimenbetween the two mounting points is the length of the specimen.The width and thickness of the specimen is de

41、termined prior tomounting the specimen in the DSR using a digital caliper andis reported to the nearest 0.01 mm. These values are enteredinto the software of the instrument where the test specimendimensions are requested. Due to the potential for variability inthe width and thickness due to the samp

42、le preparationprocedure, the width and thickness is determined in the centralportion of the test specimen.7. Apparatus7.1 The apparatus for performing the test as described inthis method shall be the equipment described in Test MethodD7175 under the section heading of Apparatus except asamended belo

43、w.7.2 Test FixturesTwo fixtures capable of securing therectangular test specimens with the long dimension of the testarticle in a vertical plane are required.7.3 A torque wrench capable of applying a torque load of0.25 Nm (250 mNm) 6 0.05 Nm of torque to tighten the testspecimen in the mounting fixt

44、ure without crushing.7.4 Environmental ChamberA chamber for controllingthe temperature of the test specimens. The medium used tocontrol the chamber shall be compressed laboratory air orcommercially bottled air. Chilled, compressed laboratory air orliquid nitrogen (LN2) is required if testing tempera

45、tures belowapproximately 30C is to be conducted. When laboratory air isused in a forced air environmental chamber, a suitable dryermust be included to prevent condensation of moisture on thetest specimen. The environmental chamber and the temperaturecontroller shall control the temperature of the te

46、st specimenmounted between the grips, including any thermal gradientswithin the test specimen, at the test temperature 6 0.1C. Dueto the geometry and type of material being tested, water bathsand Peltier fixtures cannot be used to control the test tempera-ture of the specimens. Some companies manufa

47、cture a PeltierFIG. 3 Sample Preparation to Obtain 50-mm Wide by 12-mm Wide by 10-mm Thick Specimen.D7552 09 (2014)4heated submersion cell, which uses water or some other liquidmedium to condition the test specimen. Testing the mixturewhile submerged could introduce errors in the results due toweake

48、ning of the mix due to moisture interaction.7.5 Temperature ControllerA temperature controller ca-pable of maintaining the temperature of the test specimen at thetest temperature 60.1C for test temperatures stipulated.7.6 Internal DSR ThermometerAplatinum resistance ther-mometer (PRT) mounted within

49、 the environmental chamber asan integral part of the DSR and in close proximity to thebottom mounting fixture with a minimum range of 30C to82C, and with a resolution of 0.1C. Normally this range willbe sufficient unless there is a need to determine the complexshear modulus of the mixture at temperatures below ambient. Ifthere is a need to control test temperatures below ambient thenmechanical cooling or liquid nitrogen will be needed. Thisthermometer shall be used to control the temperature of the testspecimen and shall provide a continuou