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    ASTM D5329-2009 Standard Test Methods for Sealants and Fillers Hot-Applied for Joints and Cracks in Asphaltic and Portland Cement Concrete Pavements《沥青及硅酸盐水泥混凝土路面上接缝与裂纹用热铺密封料和填充料的标.pdf

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    ASTM D5329-2009 Standard Test Methods for Sealants and Fillers Hot-Applied for Joints and Cracks in Asphaltic and Portland Cement Concrete Pavements《沥青及硅酸盐水泥混凝土路面上接缝与裂纹用热铺密封料和填充料的标.pdf

    1、Designation: D 5329 09Standard Test Methods forSealants and Fillers, Hot-Applied, for Joints and Cracks inAsphaltic and Portland Cement Concrete Pavements1This standard is issued under the fixed designation D 5329; the number immediately following the designation indicates the year oforiginal adopti

    2、on 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 These test methods cover tests for hot-applied types ofjoint and crack sea

    3、lants and fillers for portland cement concreteand asphaltic concrete pavements. There are numerous stan-dard material specifications that use these test methods. Referto the respective standard material specification of interest todetermine which of the following test methods to use. Forsample melti

    4、ng and concrete block preparation see theirrespective standard practices.1.2 The test methods appear in the following sections:SectionArtificial Weathering 15Asphalt Compatibility 14Bond, Non-Immersed 9Bond, Fuel-Immersed 11Bond, Water-Immersed 10Cone Penetration, Non-Immersed 6Cone Penetration, Fue

    5、l-Immersed 7Flexibility 18Flow 8Resilience 12Resilience, Oven-Aged 13Solubility 17Tensile Adhesion 161.3 The values stated in SI units are to be regarded as thestandard. The values given in parentheses are provided forinformation purposes only.1.4 This standard does not purport to address all of the

    6、safety 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 determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D5 Test Method for Penetrati

    7、on of Bituminous MaterialsD 217 Test Methods for Cone Penetration of LubricatingGreaseD 471 Test Method for Rubber PropertyEffect of LiquidsD 1074 Test Method for Compressive Strength of Bitumi-nous MixturesD 1561 Practice for Preparation of Bituminous Mixture TestSpecimens by Means of California Kn

    8、eading CompactorD 1985 Practice for Preparing Concrete Blocks for TestingSealants, for Joints and CracksD 3381 Specification for Viscosity-Graded Asphalt Cementfor Use in Pavement ConstructionD 5167 Practice for Melting of Hot-Applied Joint andCrack Sealant and Filler for EvaluationD 6690 Specificat

    9、ion for Joint and Crack Sealants, HotApplied, for Concrete and Asphalt PavementsE 145 Specification for Gravity-Convection and Forced-Ventilation OvensE 171 Specification for Atmospheres for Conditioning andTesting Flexible Barrier MaterialsG 151 Practice for Exposing Nonmetallic Materials in Ac-cel

    10、erated Test Devices that Use Laboratory Light SourcesG 154 Practice for Operating Fluorescent Light Apparatusfor UV Exposure of Nonmetallic MaterialsG 155 Practice for Operating Xenon Arc Light Apparatusfor Exposure of Non-Metallic Materials3. Significance and Use3.1 These test methods describe proc

    11、edures for determiningspecification conformance for hot-applied, field-molded jointand crack sealants and fillers.4. Sample Melting4.1 See Practice D 5167.5. Standard Conditions5.1 The laboratory atmospheric conditions, hereinafter re-ferred to as standard conditions, shall be in accordance withSpec

    12、ification E 171 (23 6 2C (73.4 6 3.6F).6. Cone Penetration, Non-Immersed6.1 ScopeThis test method covers determination of conepenetration of bituminous joint and crack sealers and fillers.1These test methods are under the jurisdiction of ASTM Committee D04 onRoad and Paving Materials and are the dir

    13、ect responsibility of SubcommitteeD04.33 on Formed In-Place Sealants for Joints and Cracks in Pavements.Current edition approved June 1, 2009. Published July 2009. Originally approvedin 1992. Last previous edition approved in 2007 as D 5329 07.2For referenced ASTM standards, visit the ASTM website,

    14、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.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.6.

    15、2 Significance and UseThe cone penetration, non-immersed is a measure of consistency. Higher values indicatea softer consistency.6.3 ApparatusConduct this test using the apparatus de-scribed in Test Method D5, except as specified herein. Use apenetration cone in place of the standard penetration nee

    16、dle.The cone shall conform to the requirements given in TestMethods D 217, except that the interior construction may bemodified as desired. The total moving weight of the cone andattachments shall be 150.0 6 0.1 g.6.4 Specimen PreparationPour a portion of the sampleprepared in accordance with Practi

    17、ce D 5167 into one 177 mL(6 oz) tin measuring approximately 70 mm in diameter and 45mm in depth and fill flush with the rim of the tin. Allow thespecimen to cure under standard conditions as specified in itsrespective material specification.6.5 ProcedurePlace the specimen in a water bath main-tained

    18、 at 25 6 0.1C (77 6 0.2F) for 2 h immediately beforetesting. Remove the specimen from the bath and dry thesurface. Using the apparatus described in 6.3, make determi-nations at three locations on 120 radii, and halfway betweenthe center and outside of the specimen. Take care to ensure thecone point

    19、is placed on a point in the specimen that isrepresentative of the material itself and is free of dust, water,bubbles or other foreign material. Clean and dry the cone pointafter each determination.6.6 ReportAverage the three results and record the valueas the penetration of the specimen in110 mm uni

    20、ts.6.7 Precision and Bias:6.7.1 For Specification D 6690 Type I materials, the follow-ing precision statement is based on an interlaboratory study of12 laboratories that tested five different Specification D 6690Type I materials.6.7.1.1 Within TinSingle-Operator Precision (for penetra-tion between 4

    21、0 and 80): The single-operator deviation hasbeen found to be 0.994. Therefore, results of two properlyconducted tests by the same operator should not differ by morethan three penetration units.6.7.1.2 Within and Between LaboratoriesSingle-OperatorPrecision (penetrations 40 to 80): The single-operato

    22、r standarddeviation of a single test (test result is defined as the average ofthree penetrations) has been found to be 0.924. Therefore, theresults of two properly conducted tests by the same operator onthe same material should not differ by more than threepenetration units.6.7.1.3 Multilaboratory P

    23、recision(penetration 40 to 80):The multilaboratory standard deviation of a single test (testresult is defined as the average of three penetrations) has beenfound to be 3.249. Therefore, the results of two properlyconducted tests in different laboratories should not differ bymore than nine penetratio

    24、n units.6.7.2 For Specification D 6690 Type II materials, the fol-lowing precision statement is based on an interlaboratory studyof eleven laboratories that tested six different SpecificationD 6690 Type II materials.6.7.2.1 Within TinSingle-Operator Precision (for penetra-tion between 55 and 85): Th

    25、e single-operator deviation hasbeen found to be 0.974. Therefore, results of two properlyconducted tests by the same operator should not differ by morethan three penetration units.6.7.2.2 Within and Between LaboratoriesSingle-OperatorPrecision (penetrations 50 to 70): The single-operator standarddev

    26、iation of a single test (test result is defined as the average ofthree penetrations) has been found to be 1.0865. Therefore, theresults of two properly conducted tests by the same operator onthe same material should not differ by more than threepenetration units.6.7.2.3 Single-Operator Precision(pen

    27、etrations 71 to 85):The single-operator standard deviation of a single test (testresult is defined as the average of three penetrations) has beenfound to be 2.237. Therefore, the results of two properlyconducted tests by the same operator on the same materialshould not differ by more than six penetr

    28、ation units.6.7.2.4 Multilaboratory Precision(penetration 50 to 70):The multilaboratory standard deviation of a single test (testresult is defined as the average of three penetrations) has beenfound to be 5.2609. Therefore, the results of two properlyconducted tests in different laboratories should

    29、not differ bymore than 15 penetration units.6.7.2.5 Multilaboratory Precision(penetration 71 to 85):The multilaboratory standard deviation of a single test (testresult is defined as the average of three penetrations) has beenfound to be 16.8831. Therefore, the results of two properlyconducted tests

    30、in different laboratories should not differ bymore than 48 penetration units.7. Cone Penetration, Fuel-Immersed7.1 ScopeThis test method covers the determination ofcone penetration after immersion in reference fuel.7.2 Significance and UseThe cone penetration is a mea-sure of consistency of the mate

    31、rial. Higher penetration valuesindicate a softer consistency. Large changes in penetrationfrom the cone penetration, non-immersed value indicate asignificant effect of the reference fuel on the sealant.7.3 ApparatusSame as described in 6.3.7.4 Specimen PreparationPour a portion of the sampleprepared

    32、 in accordance with Practice D 5167 into one 177 mL(6 oz) tin, then proceed as in 6.4.7.5 Specimen PreparationImmerse the specimen pre-pared as described in 6.4 for 24 h in approximately 500 mL(0.53 qt) to provide a minimum of 12 mm cover of clean testfuel conforming to the requirements of Reference

    33、 Fuel B ofTest Method D 471, maintained in a water bath at a constanttemperature of 40 6 1C (120 6 2F). Discard the test fuelafter each specimen immersion. After the 24 h immersion, drythe specimen under a draft of an approximately 300 mm (12in.) diameter electric fan at standard conditions for 1 h.

    34、 Theplacement of the fan shall be such as to maintain air velocity of0.75 to 2.50 m/s (150 to 500 ft/min) over the sample.7.6 ProcedureTest as described in 6.5.7.7 ReportRecord as described in 6.6.7.8 Precision and BiasThe precision and bias of this testmethod for measuring cone penetration are as s

    35、pecified inSection 6.D53290928. Flow8.1 ScopeThis test method measures the amount of flowof bituminous joint and crack sealants when held at a 75 angleat elevated temperatures.8.2 Significance and UseThis test method is a means ofmeasuring the ability of a sealant to resist flow from the jointor cra

    36、ck at high ambient temperatures.8.3 Apparatus:8.3.1 MoldConstruct a mold (see Note 1) 40 mm wide by60 mm long by 3.2 mm deep (1.57 in. wide by 2.36 in. long by0.125 in. deep) and place it on a bright tin panel. The tin platemust be free of dirt, oil, and so forth and be between 0.25 to0.64 mm in thi

    37、ckness (0.010 and 0.025 in. in thickness).NOTE 1A release agent should be used to coat molds and spacers toprevent them from bonding to the sealants. Extreme care should beexercised to avoid contaminating the area where the joint sealant makescontact with the blocks.Anon-toxic release agent is recom

    38、mended for thispurpose. Two examples that have been found suitable for this purpose areKY jelly (available at drug stores) and a release agent prepared bygrinding a mixture of approximately 50 % talc, 35 % glycerine, and 15 %by weight, of a water-soluble medical lubricant into a smooth paste.8.3.2 O

    39、venForced draft type conforming to SpecificationE 145 and capable of controlling its temperature 61C.8.4 Specimen PreparationPour a portion of the sampleprepared in accordance with Practice D 5167 for meltingsamples into the mold described in 8.3. Fill the mold with anexcess of material. Allow the t

    40、est specimen to cool at standardconditions for at least12 h, then trim the specimen flush withthe face of the mold with a heated metal knife or spatula andremove the mold. Allow the specimen to cure under standardconditions as specified in its respective material specification.8.5 ProcedureMark refe

    41、rence lines on the panel at thebottom edge of the sealant. Then place the panel containing thesample in a forced-draft oven maintained for the time and at thetemperature specified in its respective material specification.During the test, mount the panel so that the longitudinal axis ofthe specimen i

    42、s at an angle of 75 6 1 with the horizontal, andthe transverse axis is horizontal. After the specified test period,remove the panel from the oven and measure the movement ofthe specimen below the reference lines in millimetres.8.6 ReportReport the measurement obtained in 8.5 inmillimetres.8.7 Precis

    43、ion and Bias:8.7.1 For Specification D 6690 Type I materials, the follow-ing precision statement is based on an interlaboratory study of12 laboratories that tested five different Specification D 6690Type I materials.8.7.1.1 Single-Operator Precision (flow 0 to 5)Thesingle-operator standard deviation

    44、 has been found to be 0.255.Therefore, the results of two properly conducted tests by thesame operator should not differ by more than one flow unit.8.7.1.2 Single-Operator Precision (flow 5 to 10)Thesingle-operator standard deviation has been found to be 1.024.Therefore, the results of two properly

    45、conducted tests by thesame operator should not differ by more than three flow units.8.7.1.3 Multilaboratory Precision (flow 0 to 5)The mul-tilaboratory standard deviation has been found to be 4.256.Therefore, the results of two properly conducted tests indifferent laboratories should not differ by m

    46、ore than 12 flowunits.8.7.1.4 Multilaboratory Precision (flow 5 to 10)The mul-tilaboratory standard deviation has been found to be 5.326.Therefore, the results of two properly conducted tests indifferent laboratories should not differ by more than 15 flowunits.8.7.2 For Specification D 6690 Type II

    47、materials, the fol-lowing precision statement is based on an interlaboratory studyof eleven laboratories that tested six different SpecificationD 6690 Type II materials.8.7.2.1 Single-Operator Precision (flow 0 to 1)Thesingle-operator standard deviation has been found to be 0.2494.Therefore, the res

    48、ults of two properly conducted tests by thesame operator should not differ by more than one flow unit.8.7.2.2 Single-Operator Precision (flow 1.1 to 4)Thesingle-operator standard deviation has been found to be 0.7616.Therefore, the results of two properly conducted tests by thesame operator should n

    49、ot differ by more than three flow units.8.7.2.3 Multilaboratory Precision (flow 0 to 1)The mul-tilaboratory standard deviation has been found to be 0.5644.Therefore, the results of two properly conducted tests indifferent laboratories should not differ by more than three flowunits.8.7.2.4 Multilaboratory Precision (flow 1.1 to 4)The mul-tilaboratory standard deviation has been found to be 2.3508.Therefore, the results of two properly conducted tests indifferent laboratories should not differ by more than seven flowunits.9. Bond, Non


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