ASTM E1082-1990(2002) Standard Test Method for Measurement of Vehicular Response to Traveled Surface Roughness《测量车行道路面粗糙度的行车响应曲线的标准试验方法》.pdf

1、Designation: E 1082 90 (Reapproved 2002)Standard Test Method forMeasurement of Vehicular Response to Traveled SurfaceRoughness1This standard is issued under the fixed designation E 1082; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revisi

2、on, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon (e) indicates an editorial change since the last revision or reapproval.1. Scope1.1 This test method covers the determination of vehicularresponse to traveled surface roughness.1.2 This

3、 test method utilizes an apparatus that measures therelative motion of a sprung mass system in response to traveledsurface roughness where the mass is supported by automotivetype suspension and tires.1.3 This standard does not purport to address all of thesafety concerns, if any, associated with its

4、 use. It is theresponsibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use. Specific precau-tionary statements are given in Section 6.2. Referenced Documents2.1 ASTM Standards:E 177 Practice

5、 for Use of the Terms Precision and Bias inASTM Test Methods2E 178 Practice for Dealing with Outlying Observations2E 867 Terminology Relating to Vehicle-Pavement Systems3E 1136 Specification for a Radial Standard Reference TestTire33. Summary of Test Method3.1 Vehicular response to traveled surface

6、roughness iscalculated from an accumulated displacement measurementdivided by the test section length. A vehicle is brought to thedesired test speed and lateral position in the lane to be tested.The test apparatus is placed in operation and a constant speedis maintained throughout the test. Pertinen

7、t information affect-ing test results must be noted.4. Significance and Use4.1 This test method provides a means of evaluating trav-eled surface roughness. The measured values represent vehicu-lar response to traveled surface roughness obtained with theequipment and procedures stated herein and do n

8、ot necessarilyagree or correlate directly with those obtained by othermethods.45. Apparatus5.1 Test Apparatus, consisting of an axle to frame thedisplacement measuring sensor, a displacement accumulator, adistance measuring system and a recording system mounted ina vehicle that is either a suitable

9、passenger automobile withfour wheels or a suitable single axle, twowheel trailer towed bya vehicle.5.2 Test AutomobileThe vehicle used to house the dis-placement measurement sensor. It shall be equipped as follows:5.2.1 Engine in front,5.2.2 Rigid rear axle,5.2.3 Rear springs (coil, single leaf, gas

10、),5.2.4 Rear sway bar,5.2.5 Heavy duty shock absorbers,5.2.6 Tires dynamically balanced (GM-TPC5or Specifica-tion E 1136),5.2.7 Cruise control6, and5.2.8 Air conditioning.65.3 Test TrailerA two-wheel trailer shall be specificallydesigned and equipped to house the displacement measurementsensor, meet

11、ing the following requirements:5.3.1 120 6 1 in. (3048 6 25 mm) from the center of thehitch to the center of the axle,5.3.2 65 6 5 in. (1651 6 127 mm) from the center of thetire to the center of the tire,5.3.3 Coil spring-shock-absorber suspension system,5.3.4 Sway bar,5.3.5 Tires dynamically balanc

12、ed (GM-TPC5),5.3.6 Weight and suspension system balanced to provide aresponse to the range of traveled surface roughness to bemeasured, and5.3.7 Rigid axle.1This test method is under the jurisdiction of ASTM Committee E17 onVehicle-Pavement Systems and is the direct responsibility of Subcommittee E1

13、7.31on Methods for Measuring Profile and Roughness.Current edition approved Dec. 10, 2002. Published February 2003. Originallyapproved in 1985. Last previous edition approved in 1990 as E 108290.2Annual Book of ASTM Standards, Vol 14.02.3Annual Book of ASTM Standards, Vol 04.03.4Gillespie, T. D., Sa

14、yers, M. W., and Segel, L., “Calibration of Response-TypeRoad Roughness Measuring System,” National Cooperative Highway ResearchProgram Report 228, December 1980.5General Motors, “Tire Performance Criteria, Procedures and Specifications,”Engineering Publication A-4082, General Motors Corp., Milford,

15、 MI, 1982.6These items are optional but are listed since they can substantially affect theease with which the test is run.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.5.4 Instrumentation:5.4.1 General RequirementsThe instrumentati

16、on shallfunction accurately at ambient temperatures between 40F and100F (4.4C and 37.8C). All electronic and mechanicalcomponents of the system will be adequately designed towithstand adverse conditions such as dust, moisture, vibra-tions, and shocks that may be encountered in traversing thetraveled

17、 surfaces to be measured.5.4.2 Displacement Measuring SensorCapable of measur-ing relative vertical axle-to-frame displacement in incrementsof 0.125 in. (3.175 mm) or less in response to traveled surfaceroughness.5.4.3 Displacement AccumulatorCapable of accumulat-ing the output of the displacement m

18、easurement sensor in oneor both directions and transmitting an output, which is afunction of the measured displacement, to the recordingsystem.5.4.4 Distance Measuring SystemMust indicate distanceby producing an output directly proportional to traveleddistance that will actuate a high-speed counter

19、capable ofaccepting count rates equivalent to the highest possible testspeed. The system shall accommodate measurements in eitherfeet or miles (metres or kilometres) and have calibrationadjustment capability.5.4.5 Recording SystemMust provide an accumulativegraphic, printed, or digital display of th

20、e outputs of thedisplacement accumulator and distance measurement system.6. Safety Precautions6.1 The test vehicle, as well as attachments to it, shallcomply with applicable state and federal laws. Precautionsimposed by law shall be taken to ensure the safety of operatingpersonnel and the public.7.

21、Calibration7.1 SpeedCalibrate the vehicle speedometer that is usedto indicate the test speed by determining the time required totraverse an accurately measured (60.1 %), level and straightsection of pavement at a constant indicated speed. Calibrationspeeds should encompass the normal speed (or speed

22、s) re-quired for testing. A minimum of three test runs at each speedshould be made for calibration. The precision of measureddistance/time for the three test runs should be within 62 mph(63.2 km/h) of the average. The tangent section of pavementused for this calibration should be at least 0.5 mile (

23、0.8 km) inlength.7.2 DistanceCalibrate the distance output by determiningthe distance recorded after traversing an accurately measured(60.1%) level, tangent pavement section at a constant indi-cated speed. Distance calibrations should incorporate all cali-bration speeds. A minimum of three test runs

24、 should be madeat each speed. The precision of the distance output for the threetest runs should be within 61 % of the average. The tangentsection of pavement used for this calibration should be at least1.0 mile (1.6 km) in length.7.3 Vehicular Response to Traveled Surface RoughnessPrior to calibrat

25、ion, exercise caution to ensure proper operationof all electronic and mechanical equipment. Operation shouldcomply with the manufacturers recommended procedures andthe requirements of this test method. Calibration shall consistof adjusting the output of the displacement accumulator of aparticular te

26、st apparatus through mathematical or mechanicalmeans to correspond to a measure of roughness determined byone of the following reference methods, selected by theindividual agency.7.3.1 Preferred Method4A computer simulation of ve-hicular response based on inputs from a profile measuringsystem.7.3.2

27、Alternate MethodsThe following methods of cali-bration will not necessarily produce results that are in agree-ment with the preferred method or with each other:47.3.2.1 A measure of roughness of the CHLOE7profilome-ter,7.3.2.2 Artificial roughness surfaces,7.3.2.3 Panel rating, and7.3.2.4 A similar

28、piece of equipment calibrated as a stan-dard.7.3.3 Pavement Calibration SectionsPavement sections(not to include artificial roughness surfaces) used for thecalibration of vehicular response to traveled surface roughnessshall be uniform in roughness throughout, as far as practical,and shall be a mini

29、mum of 0.2 miles (0.3 km) in length.7.3.3.1 A minimum of three pavement sections should beused for calibration of vehicular response to traveled surfaceroughness. These sections shall exhibit roughness within arange of values significant for routine testing.7.3.3.2 A separate calibration of vehicula

30、r response totraveled surface roughness will be required for each test speed.A minimum of three determinations of vehicular response totraveled surface roughness shall be required for each particulartest speed. The calibration of vehicular response to traveledsurface roughness at different speeds wi

31、ll enable testing at aspeed appropriate to the flow of traffic.7.4 FrequencyThe calibrations are valid only if nochanges occur or are made in the test apparatus. The individualagency shall set the frequency of calibration and calibrationchecks. The recommended minimum frequency of calibrationis annu

32、al.8. Test Preparation8.1 Equipment which has an effect on the riding quality ofthe vehicle and the instrumentation should be inspected prior toinitiating the testing. Tires and shock absorbers should be ingood condition. Prior to each series of tests, warm up the tiresby traveling for at least 5 mi

33、les (8 km) at normal traffic speeds.Set the tire inflation pressure at the tire manufacturers maxi-mum recommended pressure for size and type of tire used atambient temperature just before the 5 mile (8 km) warmup.8.1.1 Automobile Mounted UnitsThese units are sensitiveto the following, and special a

34、ttention must be given to theseitems prior to testing to ensure that they are in the samecondition as when the test apparatus was calibrated:8.1.1.1 Total mass of the vehicle and its contents,8.1.1.2 Number of vehicle occupants,7“The AASHO Road Test, Report 5, Pavement Research,” HRB Special Report6

35、1E, 1962.E 1082 90 (2002)28.1.1.3 Mass distribution within the vehicle,8.1.1.4 Wheelbase (same vehicle),8.1.1.5 Type and condition of the shock absorbers and thesprings,8.1.1.6 Tire type, condition, balance and pressure,8.1.1.7 Test speed,8.1.1.8 Fuel quantity of one-half tank, minimum, and8.1.1.9 F

36、ront-end suspension condition and alignment.8.1.2 Trailer Mounted UnitsThese units are suggestedbecause of the obvious elimination of many of the variables in8.1.1. However, special attention must be given to ensure thatthe items in 8.1.2.1-8.1.2.3 are in the same condition as whenthe test apparatus

37、 was calibrated.8.1.2.1 Tire condition, balance, and pressure,8.1.2.2 Shock absorbers and spring condition, and8.1.2.3 Test speed.9. Test Sections9.1 The test sections should be continuous sections oftraveled surface (construction projects) of uniform age andcomposition, that have been subjected to

38、essentially uniformwear. The individual agency shall specify the minimum testsection length but not less than 0.1 mile (0.2 km). Each laneshould be considered a separate test section. Test sections shallnot include bridge structures or railroad crossings. The surfaceshould be free of debris prior to

39、 testing.9.2 Lateral Positioning of Test Vehicle on Test SectionsNormal testing shall be accomplished with the test tirescentered in the normal traffic pattern (wheelpaths).10. Test Speed and Temperature10.1 Test SpeedShould correspond with one of the cali-bration speeds consistent with the posted s

40、peed limit.10.2 Test TemperatureAmbient temperature should bebetween 40F and 100F (4.4C and 37.8C).11. Measurement11.1 Significance of MeasurementsThe individual agencyshould define acceptable values of vehicular response totraveled surface roughness for existing pavements, new con-struction, and ov

41、erlays. The pavement type and traffic areinfluencing characteristics which may require different values.11.2 Vehicular Response to Traveled Surface RoughnessShall be expressed in common terms which do not fluctuatewith test section length. (Example: units of axle displacementper unit length).12. Pro

42、cedure12.1 Prior to the beginning of the test section, bring the testvehicle to the desired speed and alignment and maintainconstant speed throughout. A variation in the indicated speed of62 mph (63.2 km/h) will void the acquired data.12.2 Record the data pertinent to the test.12.3 Individual determ

43、inations of vehicular response totraveled surface roughness for a test result average shallconform to Section 12. Test results that are manifestly faultyshall be discarded in accordance with Practice E 178.13. Calculation13.1 Determine the test section limits and length.13.2 Determine the accumulate

44、d displacement in responseto traveled surface roughness measured within the test sectionlimits.13.3 Calculate the test result of vehicular response totraveled surface roughness as necessary, dependent upon themethod of calibration used.14. Report14.1 Field ReportThe field report for each test sectio

45、nshall contain data on the following items:14.1.1 Location and identification of test section,14.1.2 Date and time of day,14.1.3 Ambient temperature,14.1.4 Type of pavement,14.1.5 Lane tested,14.1.6 Speed of test vehicle,14.1.7 Test result from 13.3,14.1.8 Operator(s),14.1.9 Test unit identification

46、, and14.1.10 Calibration method (optional).14.2 Summary ReportThe summary report for each testsection shall include data on the following items insofar as theyare pertinent to the variables under investigation:14.2.1 Location and identification of the test section,14.2.2 Lane tested,14.2.3 Date of t

47、est,14.2.4 Pavement type,14.2.5 Test result, and14.2.6 Calibration method.15. Precision and Bias15.1 Individual Measurement PrecisionIndividual re-peated determinations of accumulated displacement for thesame test section by the same operator with the same equip-ment on the same day must agree with

48、the average of thedeterminations of accumulated displacement within 610 %(2S %) as defined in Practice E 177 or should be consideredsuspect. This precision statement is based on data from 0.5mile (0.8 km) test sections. The precision may vary with thetest section length. No further data is available

49、 at this time tomake an additional statement on precision. The individualagency must set the number of determinations of vehicularresponse to traveled surface roughness necessary to achieve theprecision desired. Normally, three determinations will berequired for a given test section.15.2 Bias of Test ResultsSince there is not a single agreedon or accepted method of calibration, no statement on bias canbe made at this time.E 1082 90 (2002)3ASTM International takes no position respecting the validity of any patent rights asserted in connection with any