1、Designation: C 31/C 31M 06Standard Practice forMaking and Curing Concrete Test Specimens in the Field1This standard is issued under the fixed designation C 31/C 31M; the number immediately following the designation indicates the yearof original adoption or, in the case of revision, the year of last
2、revision. A number in parentheses indicates the year of last reapproval.A superscript epsilon (e) indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1. Scope*1.1 This practice covers procedures for maki
3、ng and curingcylinder and beam specimens from representative samples offresh concrete for a construction project.1.2 The concrete used to make the molded specimens shallbe sampled after all on-site adjustments have been made to themixture proportions, including the addition of mix water andadmixture
4、s. This practice is not satisfactory for making speci-mens from concrete not having measurable slump or requiringother sizes or shapes of specimens.1.3 The values stated in either inch-pound units or SI unitsshall be regarded separately as standard. The SI units areshown in brackets. The values stat
5、ed may not be exactequivalents; therefore each system must be used independentlyof the other. Combining values from the two units may resultin nonconformance.1.4 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user
6、of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use. (WarningFreshhydraulic cementitious mixtures are caustic and may causechemical burns to exposed skin and tissue upon prolongedexposure.2)1.5 The text of thi
7、s standard references notes which provideexplanatory material. These notes shall not be considered asrequirements of the standard.2. Referenced Documents2.1 ASTM Standards:3C 125 Terminology Relating to Concrete and ConcreteAggregatesC 138/C 138M Test Method for Density (Unit Weight),Yield, and Air
8、Content (Gravimetric) of ConcreteC 143/C 143M Test Method for Slump of Hydraulic-Cement ConcreteC 172 Practice for Sampling Freshly Mixed ConcreteC 173/C 173M Test Method for Air Content of FreshlyMixed Concrete by the Volumetric MethodC 231 Test Method for Air Content of Freshly MixedConcrete by th
9、e Pressure MethodC 330 Specification for Lightweight Aggregates for Struc-tural ConcreteC 403/C 403M Test Method for Time of Setting of ConcreteMixtures by Penetration ResistanceC 470/C 470M Specification for Molds for Forming Con-crete Test Cylinders VerticallyC511 Specification for Mixing Rooms, M
10、oist Cabinets,Moist Rooms, and Water Storage Tanks Used in theTesting of Hydraulic Cements and ConcretesC 617 Practice for Capping Cylindrical Concrete Speci-mensC 1064/C 1064M Test Method for Temperature of FreshlyMixed Hydraulic-Cement Concrete2.2 American Concrete Institute Publication:4CP-1 Conc
11、rete Field Testing Technician, Grade I309R Guide for Consolidation of Concrete3. Terminology3.1 For definitions of terms used in this practice, refer toTerminology C 125.4. Significance and Use4.1 This practice provides standardized requirements formaking, curing, protecting, and transporting concre
12、te testspecimens under field conditions.4.2 If the specimens are made and standard cured, asstipulated herein, the resulting strength test data when thespecimens are tested are able to be used for the followingpurposes:4.2.1 Acceptance testing for specified strength,1This practice is under the juris
13、diction of ASTM Committee C09 on Concreteand Concrete Aggregates and is the direct responsibility of Subcommittee C09.61on Testing for Strength.Current edition approved Aug. 1, 2006. Published August 2006. Originallyapproved in 1920. Last previous edition approved in 2003 as C 31/C 31M-03a.2See Sect
14、ion on Safety Precautions, Manual of Aggregate and Concrete Testing,Annual Book of ASTM Standards, Vol. 04.02.3For 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 st
15、andards Document Summary page onthe ASTM website.4Available from American Concrete Institute (ACI), P.O. Box 9094, FarmingtonHills, MI 48333-9094, http:/www.aci-int.org.1*A Summary of Changes section appears at the end of this standard.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700
16、, West Conshohocken, PA 19428-2959, United States.4.2.2 Checking adequacy of mixture proportions forstrength, and4.2.3 Quality control.4.3 If the specimens are made and field cured, as stipulatedherein, the resulting strength test data when the specimens aretested are able to be used for the followi
17、ng purposes:4.3.1 Determination of whether a structure is capable ofbeing put in service,4.3.2 Comparison with test results of standard cured speci-mens or with test results from various in-place test methods,4.3.3 Adequacy of curing and protection of concrete in thestructure, or4.3.4 Form or shorin
18、g removal time requirements.5. Apparatus5.1 Molds, General Molds for specimens or fasteningsthereto in contact with the concrete shall be made of steel, castiron, or other nonabsorbent material, nonreactive with concretecontaining portland or other hydraulic cements. Molds shallhold their dimensions
19、 and shape under all conditions of use.Molds shall be watertight during use as judged by their abilityto hold water poured into them. Provisions for tests of waterleakage are given in the Test Methods for Elongation, Absorp-tion, and Water Leakage section of Specification C 470/C 470M. A suitable se
20、alant, such as heavy grease, modelingclay, or microcrystalline wax shall be used where necessary toprevent leakage through the joints. Positive means shall beprovided to hold base plates firmly to the molds. Reusablemolds shall be lightly coated with mineral oil or a suitablenonreactive form release
21、 material before use.5.2 Cylinder Molds Molds for casting concrete test speci-mens shall conform to the requirements of SpecificationC 470/C 470M.5.3 Beam MoldsBeam molds shall be of the shape anddimensions required to produce the specimens stipulated in 6.2.The inside surfaces of the molds shall be
22、 smooth. The sides,bottom, and ends shall be at right angles to each other and shallbe straight and true and free of warpage. Maximum variationfrom the nominal cross section shall not exceed18 in. 3 mmfor molds with depth or breadth of 6 in. 150 mm or more.Molds shall produce specimens at least as l
23、ong but not morethan116 in. 2 mm shorter than the required length in 6.2.5.4 Tamping Rod A round, straight steel rod with thedimensions conforming to those in Table 1, having the tampingend or both ends rounded to a hemispherical tip of the samediameter as the rod.5.5 VibratorsInternal vibrators sha
24、ll be used. The vibratorfrequency shall be at least 7000 vibrations per minute 150 Hzwhile the vibrator is operating in the concrete. The diameter ofa round vibrator shall be no more than one-fourth the diameterof the cylinder mold or one-fourth the width of the beam mold.Other shaped vibrators shal
25、l have a perimeter equivalent to thecircumference of an appropriate round vibrator. The combinedlength of the vibrator shaft and vibrating element shall exceedthe depth of the section being vibrated by at least 3 in. 75mm. The vibrator frequency shall be checked periodically.NOTE 1For information on
26、 size and frequency of various vibratorsand a method to periodically check vibrator frequency see ACI 309R.5.6 MalletA mallet with a rubber or rawhide head weigh-ing 1.25 6 0.50 lb 0.6 6 0.2 kg shall be used.5.7 Small Tools Shovels, hand-held floats, scoops, and avibrating-reed tachometer shall be p
27、rovided.5.8 Slump Apparatus The apparatus for measurement ofslump shall conform to the requirements of Test MethodC 143/C 143M.5.9 Sampling ReceptacleThe receptacle shall be a suitableheavy gage metal pan, wheelbarrow, or flat, clean nonabsor-bent board of sufficient capacity to allow easy remixing
28、of theentire sample with a shovel or trowel.5.10 Air Content ApparatusThe apparatus for measuringair content shall conform to the requirements of Test MethodsC 173/C 173M or C 231.5.11 Temperature Measuring DevicesThe temperaturemeasuring devices shall conform to the applicable require-ments of Test
29、 Method C 1064/C 1064M.6. Testing Requirements6.1 Cylindrical SpecimensCompressive or splitting ten-sile strength specimens shall be cylinders cast and allowed toset in an upright position. The length shall be twice thediameter. The cylinder diameter shall be at least 3 times thenominal maximum size
30、 of the coarse aggregate. When thenominal maximum size of the coarse aggregate exceeds 2 in.50 mm, the concrete sample shall be treated by wet sievingthrough a 2-in. 50-mm sieve as described in Practice C 172.For acceptance testing for specified compressive strength,cylinders shall be 6 by 12 in. 15
31、0 by 300 mm or 4 3 8 in.100 3 200 mm (Note 2).NOTE 2When molds in SI units are required and not available,equivalent inch-pound unit size mold should be permitted.6.2 Beam Specimens Flexural strength specimens shall bebeams of concrete cast and hardened in the horizontal position.The length shall be
32、 at least 2 in. 50 mm greater than threetimes the depth as tested. The ratio of width to depth as moldedshall not exceed 1.5. The standard beam shall be 6 by 6 in. 150by 150 mm in cross section, and shall be used for concretewith nominal maximum size coarse aggregate up to 2 in. 50mm. When the nomin
33、al maximum size of the coarse aggregateexceeds 2 in. 50 mm, the smaller cross sectional dimension ofthe beam shall be at least three times the nominal maximumsize of the coarse aggregate. Unless required by projectspecifications, beams made in the field shall not have a widthor depth of less than 6
34、in. 150 mm.6.3 Field TechniciansThe field technicians making andcuring specimens for acceptance testing shall be certified ACIField Testing Technicians, Grade I or equivalent. Equivalentpersonnel certification programs shall include both written andperformance examinations, as outlined in ACI CP-1.T
35、ABLE 1 Tamping Rod RequirementsDiameter of Cylinder or Width ofBeam in. mmRod DimensionsADiameterin. mmLength of Rodin. mm8 200 3 or more equal depths,each not to exceed6 in. 150 mm.see 9.3TABLE 4 Molding Requirements by VibrationSpecimen Typeand SizeNumber ofLayersNumber ofVibratorInsertionsper Lay
36、erApproximate Depth ofLayer, in. mmCylinders:Diameter, in. mm4 100 2 1 one-half depth of specimen6 150 2 2 one-half depth of specimen9 225 2 4 one-half depth of specimenBeams:Width, in. mm6 150 to 8 200 1 see 9.4.2 depth of specimenover 8 200 2 or more see 9.4.2 8 200 as near aspracticableC 31/C 31M
37、 0639.4.2 VibrationMaintain a uniform duration of vibrationfor the particular kind of concrete, vibrator, and specimen moldinvolved. The duration of vibration required will depend uponthe workability of the concrete and the effectiveness of thevibrator. Usually sufficient vibration has been applied
38、as soonas the surface of the concrete has become relatively smooth andlarge air bubbles cease to break through the top surface.Continue vibration only long enough to achieve proper con-solidation of the concrete (see Note 4). Fill the molds andvibrate in the required number of approximately equal la
39、yers.Place all the concrete for each layer in the mold before startingvibration of that layer. In compacting the specimen, insert thevibrator slowly and do not allow it to rest on the bottom orsides of the mold. Slowly withdraw the vibrator so that no largeair pockets are left in the specimen. When
40、placing the finallayer, avoid overfilling by more than14 in. 6 mm.NOTE 4Generally, no more than5sofvibration should be requiredfor each insertion to adequately consolidate concrete with a slump greaterthan 3 in. 75 mm. Longer times may be required for lower slumpconcrete, but the vibration time shou
41、ld rarely have to exceed 10 s perinsertion.9.4.2.1 CylindersThe number of insertions of the vibratorper layer is given in Table 4. When more than one insertion perlayer is required distribute the insertion uniformly within eachlayer. Allow the vibrator to penetrate through the layer beingvibrated, a
42、nd into the layer below, approximately 1 in. 25mm. After each layer is vibrated, tap the outsides of the moldat least 10 times with the mallet, to close holes that remain andto release entrapped air voids. Use an open hand to tapcardboard and single-use metal molds that are susceptible todamage if t
43、apped with a mallet.9.4.2.2 BeamsInsert the vibrator at intervals not exceed-ing 6 in. 150 mm along the center line of the long dimensionof the specimen. For specimens wider than 6 in., use alternat-ing insertions along two lines.Allow the shaft of the vibrator topenetrate into the bottom layer appr
44、oximately 1 in. (25 mm).After each layer is vibrated, tap the outsides of the moldsharply at least 10 times with the mallet to close holes left byvibrating and to release entrapped air voids.9.5 FinishingAfter consolidation, strike off excess con-crete from the surface and float or trowel as require
45、d. Performall finishing with the minimum manipulation necessary toproduce a flat even surface that is level with the rim or edge ofthe mold and that has no depressions or projections largerthan18 in. 3.3 mm.9.5.1 CylindersAfter consolidation, finish the top surfacesby striking them off with the tamp
46、ing rod where the consis-tency of the concrete permits or with a wood float or trowel. Ifdesired, cap the top surface of freshly made cylinders with athin layer of stiff portland cement paste which is permitted toharden and cure with the specimen. See section on CappingMaterials of Practice C 617.9.
47、5.2 BeamsAfter consolidation of the concrete, use ahand-held float to strike off the top surface to the requiredtolerance to produce a flat, even surface.9.6 Identification Mark the specimens to positively iden-tify them and the concrete they represent. Use a method thatwill not alter the top surfac
48、e of the concrete. Do not mark theremovable caps. Upon removal of the molds, mark the testspecimens to retain their identities.10. Curing10.1 Standard Curing Standard curing is the curingmethod used when the specimens are made and cured for thepurposes stated in 4.2.10.1.1 StorageIf specimens cannot
49、 be molded at the placewhere they will receive initial curing, immediately afterfinishing move the specimens to an initial curing place forstorage. The supporting surface on which specimens are storedshall be level to within14 in. per ft 20 mm per m. If cylindersin the single use molds are moved, lift and support thecylinders from the bottom of the molds with a large trowel orsimilar device. If the top surface is marred during movement toplace of initial storage, immediately refinis
