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本文(AASHTO T 378-2017 Standard Method of Test for Determining the Dynamic Modulus and Flow Number for Asphalt Mixtures Using the Asphalt Mixture Performance Tester (AMPT).pdf)为本站会员(amazingpat195)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!

AASHTO T 378-2017 Standard Method of Test for Determining the Dynamic Modulus and Flow Number for Asphalt Mixtures Using the Asphalt Mixture Performance Tester (AMPT).pdf

1、Standard Method of Test for Determining the Dynamic Modulus and Flow Number for Asphalt Mixtures Using the Asphalt Mixture Performance Tester (AMPT) AASHTO Designation: T 378-171 Technical Section: 2d, Proportioning of AsphaltAggregate Mixtures Release: Group 3 (August 2017) American Association of

2、State Highway and Transportation Officials 444 North Capitol Street N.W., Suite 249 Washington, D.C. 20001 TS-2d T 378-1 AASHTO Standard Method of Test for Determining the Dynamic Modulus and Flow Number for Asphalt Mixtures Using the Asphalt Mixture Performance Tester (AMPT) AASHTO Designation: T 3

3、78-171Technical Section: 2d, Proportioning of AsphaltAggregate Mixtures Release: Group 3 (August 2017) 1. SCOPE 1.1. This standard describes test methods for measuring the dynamic modulus and flow number for asphalt mixtures using the Asphalt Mixture Performance Tester (AMPT). This practice is inten

4、ded for dense- and gap-graded mixtures with nominal-maximum aggregate sizes up to 37.5 mm. 1.2. This standard may involve hazardous materials, operations, and equipment. This standard does not purport to address all of the safety concerns associated with its use. It is the responsibility of the user

5、 of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use. 2. REFERENCED DOCUMENTS 2.1. AASHTO Standard: R 83, Preparation of Cylindrical Performance Test Specimens Using the Superpave Gyratory Compactor (SGC) 2.2. O

6、ther Publication: Equipment Specification for the Simple Performance Test System, Version 3.0, Prepared for National Cooperative Highway Research Program (NCHRP), October 16, 2007 3. TERMINOLOGY 3.1. Definitions: 3.1.1. confining pressurethe stress applied to all surfaces in a confined test. 3.1.2.

7、deviatoric stressthe difference between the total axial stress and the confining pressure in a confined test. 2017 by the American Association of State Highway and Transportation Officials. All rights reserved. Duplication is a violation of applicable law.TS-2d T 378-2 AASHTO 3.1.3. dynamic modulus,

8、 |E*|the absolute value of the complex modulus calculated by dividing the peak-to-peak stress by the peak-to-peak strain for a material subjected to a sinusoidal loading. 3.1.4. flow numberthe number of load cycles corresponding to the minimum rate of change of permanent axial strain during a repeat

9、ed-load test. 3.1.5. phase angle, the angle in degrees between a sinusoidally applied stress and the resulting strain in a controlled stress test. 3.1.6. permanent deformationthe nonrecovered deformation in a repeated-load test. 4. SUMMARY OF METHOD 4.1. This test method describes procedures for mea

10、suring the dynamic modulus and flow number for asphalt mixtures. 4.2. In the dynamic modulus procedure, a specimen at a specific test temperature is subjected to a controlled sinusoidal (haversine) compressive stress of various frequencies. The test may be conducted with or without confining pressur

11、e. The applied stresses and resulting axial strains are measured as a function of time and used to calculate the dynamic modulus and phase angle. 4.3. In the flow number procedure, a specimen at a specific test temperature is subjected to a repeated haversine axial compressive load pulse of 0.1 s ev

12、ery 1.0 s. The test may be conducted with or without confining pressure. The resulting permanent axial strains are measured as a function of the load cycles and numerically differentiated to calculate the flow number. The flow number is defined as the number of load cycles corresponding to the minim

13、um rate of change of permanent axial strain. 5. SIGNIFICANCE AND USE 5.1. The dynamic modulus is a performance-related property that can be used for mixture evaluation and for characterizing the stiffness of asphalt mixtures for mechanistic-empirical pavement design. 5.2. The flow number is a proper

14、ty related to the resistance of asphalt mixtures to permanent deformation. It can be used to evaluate and design asphalt mixtures with specific resistance to permanent deformation. 6. APPARATUS 6.1. Specimen Fabrication EquipmentFor fabricating dynamic modulus test specimens as described in R 83. 6.

15、2. Dynamic Modulus Test SystemMeeting the requirements of the equipment specification for the Simple Performance Test (SPT) System, Version 3.0, except for the following provisions: In the referenced equipment specification, Sections 10.7 and 11.3 shall require a temperature sensor range of 0 to 75C

16、 (32 to 167F) and Section 11.1 shall require a temperature control range from 4 to 70C (39 to 158F). 6.3. Conditioning ChamberAn environmental chamber for conditioning the test specimens to the desired testing temperature. The environmental chamber shall be capable of controlling the temperature of

17、the specimen over a temperature range from 4 to 70C to an accuracy of 0.5C. The chamber shall be large enough to accommodate the number of specimens to be tested plus a “dummy” specimen with a temperature sensor mounted in the center for temperature verification. 2017 by the American Association of

18、State Highway and Transportation Officials. All rights reserved. Duplication is a violation of applicable law.TS-2d T 378-3 AASHTO Note 1The temperature range required for the Dynamic Modulus Test System and the Conditioning Chamber is a function of the anticipated test temperature. The temperature

19、control range provided in Sections 6.2 and 6.3 is intended to be inclusive of all areas of the U.S. In many climatic regions, it may not be necessary to have equipment capable of controlling the temperature up to 70C. 6.4. TFE-Fluorocarbon Sheet0.25 mm thick, to be used as a friction reducer between

20、 the specimen and the loading platens in the dynamic modulus test. 6.5. Latex Membranes100-mm diameter by 0.3 mm thick, for use in confined tests and for manufacturing “greased double latex” friction reducers to be used between the specimen and the loading platens in the dynamic modulus and flow num

21、ber tests. 6.6. Silicone GreaseDow Corning “Stopcock Grease” or equivalent, for manufacturing greased double latex friction reducers. 6.7. BalanceCapable of determining mass to the nearest 0.01 g. The balance is used to determine the mass of silicone grease during fabrication of greased double latex

22、 friction reducers. 7. HAZARDS 7.1. This practice and associated standards involve handling of hot asphalt binder, aggregates, and asphalt mixtures. It also includes the use of sawing and coring machinery and servohydraulic testing equipment. Use standard safety precautions, equipment, and clothing

23、when handling hot materials and operating machinery. 8. STANDARDIZATION 8.1. Verification with Proving Ring: 8.1.1. Verify the normal operation of the AMPT weekly or at the beginning of a new testing program using the manufacturer-provided proving ring and following the proving ring manufacturers us

24、e instructions. Perform a dynamic modulus test on the proving ring using a target strain of 100 microstrain at 1.0 Hz. The dynamic modulus of the proving ring should be within 3 percent of the value obtained on the proving ring for the same testing conditions during the last calibration. 8.2. Calibr

25、ation: 8.2.1. The following systems on the AMPT shall be calibrated annually, when the AMPT system is moved, or when any of its components are changed: Load Measuring System Actuator Displacement Measuring System Specimen-Mounted Deformation Measuring System Confining Pressure Measuring System Tempe

26、rature Measuring System Methods for calibration of each of these systems are included in Annex B. 9. PROCEDURE ADYNAMIC MODULUS TEST 9.1. Test Specimen Fabrication: 2017 by the American Association of State Highway and Transportation Officials. All rights reserved. Duplication is a violation of appl

27、icable law.TS-2d T 378-4 AASHTO 9.1.1. Testing shall be performed on 100-mm diameter by 150-mm tall test specimens fabricated in accordance with R 83. 9.1.2. Prepare at least two test specimens at the target air void content 0.5 percent and with the aging condition in accordance with R 83. Note 2The

28、 number of specimens to test depends on the desired accuracy of the analysis. Refer to Table 4 for guidance on the reproducibility of dynamic modulus and phase angle measurements. 9.2. Test Specimen Instrumentation (Standard Glued-Gauge-Point System): 9.2.1. Attach the gauge points to the specimen i

29、n accordance with the manufacturers instructions. 9.2.2. Confirm that the gauge length is 70 mm 1 mm, measured center-to-center of the gauge points. 9.3. Loading Platens and End-Friction Reducers: 9.3.1. For the dynamic modulus test, the top platen shall be free to rotate. 9.3.2. Either greased doub

30、le latex or TFE fluorocarbon end-friction reducers can be used in the dynamic modulus test. 9.3.2.1. Teflon end-friction reducers are made from 0.25-mm thick TFE fluorocarbon sheet, cut to a size slightly larger than the loading platen. 9.3.2.2. Greased double latex friction reducers are fabricated

31、from 0.3-mm thick latex membranes as described in Annex A. 9.4. Procedure: 9.4.1. Unconfined Tests: 9.4.1.1. Place the specimens to be tested in the environmental chamber with the “dummy” specimen and monitor the temperature of the dummy specimen to determine when testing can begin. 9.4.1.2. Place p

32、latens and friction reducers inside the testing chamber. Turn on the AMPT, set the temperature control to the desired testing temperature, and allow the testing chamber to equilibrate at the testing temperature for at least 1 h. 9.4.1.3. When the dummy specimen and the testing chamber reach the targ

33、et temperature, open the testing chamber. Remove a test specimen from the conditioning chamber and quickly place it in the testing chamber. 9.4.1.4. Assemble the specimen to be tested with platens in the following order from bottom to top: bottom loading platen, bottom friction reducer, specimen, to

34、p friction reducer, and top loading platen. 9.4.1.5. Install the specimen-mounted deformation measuring system on the gauge points per the manufacturers instructions. Ensure that the deformation measuring system is within its calibrated range. Ensure that the top loading platen is free to rotate dur

35、ing loading. 9.4.1.6. Close the testing chamber and allow the chamber temperature to return to the testing temperature. 9.4.1.7. Procedures in Sections 9.4.1.3 through 9.4.1.6, including the return of the test chamber to the target temperature, shall be completed in 5 min. 9.4.1.8. Enter the require

36、d identification and control information into the dynamic modulus software. 2017 by the American Association of State Highway and Transportation Officials. All rights reserved. Duplication is a violation of applicable law.TS-2d T 378-5 AASHTO 9.4.1.9. Follow the software prompts to begin the test. T

37、he AMPT will automatically unload when the test is complete and will display the test data and data quality indicators. 9.4.1.10. Review the data quality indicators as discussed in Section 9.5. Retest specimens with data quality indicators above the values specified in Section 9.5. 9.4.1.11. Once ac

38、ceptable data have been collected, open the test chamber and remove the tested specimen. 9.4.1.12. Repeat procedures in Sections 9.4.1.3 through 9.4.1.11 for the remaining test specimens. 9.4.2. Confined Tests: 9.4.2.1. Assemble each specimen to be tested with the platens and membrane as follows: pl

39、ace the bottom friction reducer and the specimen on the bottom platen. Stretch the membrane over the specimen and bottom loading platen. Install the lower O-ring seal. Place the top friction reducer and top platen on top of the specimen and stretch the membrane over the top platen. Install the upper

40、 O-ring seal. When performing confined tests, the specimen must be vented to atmospheric pressure through the drainage lines. Ensure that the friction reducers have holes to allow air to be vented from inside the membrane. 9.4.2.2. Encase the “dummy” specimen in a membrane. 9.4.2.3. Place the specim

41、en and platen assembly in the environmental chamber with the dummy specimen and monitor the temperature of the dummy specimen to determine when testing can begin. 9.4.2.4. Turn on the AMPT, set the temperature control to the desired testing temperature, and allow the testing chamber to equilibrate a

42、t the testing temperature for at least 1 h. 9.4.2.5. When the dummy specimen and the testing chamber reach the target temperature, open the testing chamber. Remove a test specimen and platen assembly and quickly place it in the testing chamber. When performing confined tests, the specimen must be ve

43、nted to atmospheric pressure through the drainage lines. Properly connect the drainage lines to the loading platens, and ensure that they are vented to atmospheric pressure through the bubble chamber to identify leaks. 9.4.2.6. Install the specimen-mounted deformation measuring system outside the me

44、mbrane on the gauge points per the manufacturers instructions. Ensure that the deformation measuring system is within its calibrated range. Ensure that the top loading platen is free to rotate during loading. 9.4.2.7. Close the testing chamber, and allow the chamber temperature to return to the test

45、ing temperature. 9.4.2.8. Procedures in Sections 9.4.2.5 through 9.4.2.7, including the return of the test chamber to the target temperature, shall be completed in 5 min. 9.4.2.9. Enter the required identification and control information into the dynamic modulus software. 9.4.2.10. Follow the softwa

46、re prompts to begin the test. The AMPT will automatically unload when the test is complete and will display the test data and data quality indicators. 9.4.2.11. Review the data quality indicators as discussed in Section 9.5. Retest specimens with data quality indicators above the values specified in

47、 Section 9.5. 9.4.2.12. Once acceptable data have been collected, open the test chamber and remove the tested specimen. 9.4.2.13. Repeat procedures in Sections 9.4.2.3 through 9.4.2.12 for the remaining test specimens. 2017 by the American Association of State Highway and Transportation Officials. A

48、ll rights reserved. Duplication is a violation of applicable law.TS-2d T 378-6 AASHTO 9.5. Computations and Data Quality: 9.5.1. The calculation of dynamic modulus, phase angle, and the data quality indicators is performed automatically by the AMPT software. 9.5.2. Accept only test data meeting the

49、data quality statistics given in Table 1. Table 2 summarizes actions that can be taken to improve the data quality statistic. Repeat tests as necessary to obtain test data meeting the data quality statistics requirements. Table 1Data Quality Statistics Requirements Data Quality Statistic Limit Deformation drift In direction of applied load Peak-to-peak strain 75 to 125 microstrain for unconfined tests 85 to 115 microstrain for confined tests Load standard error 10% Deformation standard error 10% Deformation uniformity 30% Phase unifor

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