1、Designation:C14010 Designation: C140 11Standard Test Methods forSampling and Testing Concrete Masonry Units and RelatedUnits1This standard is issued under the fixed designation C140; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision,
2、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. Scope*1.1 These test methods provide various testing procedures commonly used for evaluating characteristics of con
3、crete masonryunits and related concrete units. Methods are provided for sampling, measurement of dimensions, compressive strength,absorption, unit weight (density), moisture content, flexural load, and ballast weight. Not all methods are applicable to all unittypes, however.1.2 Specific testing and
4、reporting procedures are included in annexes to these test methods for the following specific unit types:Annex A1Concrete masonry units (Specifications C90, C129)Annex A2Concrete and calcium silicate brick(Specifications C55, C73, C1634)Annex A3Segmental retaining wall units (Specification C1372)Ann
5、ex A4Concrete interlocking paving units(Specification C936/C936M)Annex A5Concrete grid paving units (Specification C1319)Annex A6Concrete roof pavers (Specification C1491)Annex A7Dry-cast articulating concrete block(Specification D6684)1.3 The test procedures included in these test methods are also
6、applicable to other types of units not referenced in these testmethods, but specific testing and reporting requirements for those units are not included.1.4 These test methods include the following sections:SectionScope 1Referenced Documents 2Terminology 3Significance and Use 4Sampling 5Measurement
7、of Dimensions 6Compressive Strength 7Absorption 8Calculations 9Report 10Keywords 111These test methods are under the jurisdiction of ASTM Committee C15 on Manufactured Masonry Units and are the direct responsibility of Subcommittee C15.03 onConcrete Masonry Units and Related Units.Current edition ap
8、proved June 15, 2010. Published July 2010. Originally approved in 1938. Last previous edition approved in 2009 as C14009a. DOI: 10.1520/C0140-10.Current edition approved Feb. 1, 2011. Published March 2011. Originally approved in 1938. Last previous edition approved in 2010 as C140 10. DOI: 10.1520/C
9、0140-11.1This document is not an ASTM standard and is intended only to provide the user of an ASTM standard an indication of what changes have been made to the previous version. Becauseit may not be technically possible to adequately depict all changes accurately, ASTM recommends that users consult
10、prior editions as appropriate. In all cases only the current versionof the standard as published by ASTM is to be considered the official document.*A Summary of Changes section appears at the end of this standard.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA
11、 19428-2959, United States.SectionAnnexesTest ProceduresConcrete Masonry Units AnnexA1Concrete and Calcium Silicate-BrickAnnexA2Segmental RetainingWall UnitsAnnexA3Concrete Interlocking Paving Units AnnexA4Concrete Grid PavingUnitsAnnexA5Concrete Roof Pav-ersAnnexA6Dry-Cast ArticulatingConcrete Bloc
12、kAnnexA7Determining Plate ThicknessRequirements forCompression TestingAnnexA8Worksheet and Test Report forConcrete Masonry UnitsAppen-dix X1NOTE 1The testing laboratory performing these test methods should be evaluated in accordance with Practice C1093.1.5 The values stated in inch-pound units are t
13、o be regarded as the standard, except in Annex A4, where either SI units orinch-pound units are to be regarded separately as standard. The values given in parentheses throughout are mathematicalconversions to SI units that are provided for information only and are not considered standard.1.6 This st
14、andard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibilityof the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatorylimitations prior to use.2. Referenced Documents2.1 A
15、STM Standards:2C55 Specification for Concrete Building BrickC73 Specification for Calcium Silicate Brick (Sand-Lime Brick)C90 Specification for Loadbearing Concrete Masonry UnitsC129 Specification for Nonloadbearing Concrete Masonry UnitsC143/C143M Test Method for Slump of Hydraulic-Cement ConcreteC
16、936/C936M Specification for Solid Concrete Interlocking Paving UnitsC1093 Practice for Accreditation of Testing Agencies for MasonryC1232 Terminology of MasonryC1319 Specification for Concrete Grid Paving UnitsC1372 Specification for Dry-Cast Segmental Retaining Wall UnitsC1491 Specification for Con
17、crete Roof PaversC1552 Practice for Capping Concrete Masonry Units, Related Units and Masonry Prisms for Compression TestingC1634 Specification for Concrete Facing BrickD6684 Specification for Materials and Manufacture of Articulating Concrete Block (ACB) Revetment SystemsE4 Practices for Force Veri
18、fication of Testing MachinesE6 Terminology Relating to Methods of Mechanical Testing3. Terminology3.1 Terminology defined in Terminologies C1232 and E6 shall apply for these test methods.4. Significance and Use4.1 These test methods provide general testing requirements for application to a broad ran
19、ge of concrete products. Those generaltesting requirements are included in the body of this standard.NOTE 2Consult manufacturer, supplier, product specifications, or other resources for more specific measurement or testing guidelines for thoseproducts not addressed with the annex of this standard.4.
20、2 These test methods provide specific testing requirements in two distinct sections, the requirements applicable to all unitscovered by these test methods and those applicable to the specific unit types. The requirements applicable to all units are includedin the body of these test methods and those
21、 applicable to the specific unit types are included within the annexes.2For referenced ASTM standards, visit the ASTM website, www.astm.org, or contact ASTM Customer Service at serviceastm.org. For Annual Book of ASTM Standardsvolume information, refer to the standards Document Summary page on the A
22、STM website.C140 1125. Sampling5.1 Selection of Test Specimens :5.1.1 For purposes of testing, full-sized units shall be selected by the purchaser or authorized representative. The selectedspecimens shall be of similar configuration and dimensions. Specimens shall be representative of the whole lot
23、of units from whichthey are selected.5.1.2 The term “lot” refers to any number of concrete masonry units of any configuration or dimension manufactured by theproducer using the same materials, concrete mix design, manufacturing process, and curing method.5.2 Number of Specimens:5.2.1 Unless specifie
24、d otherwise in the applicable annex, a set of units shall consist of six full-size units.5.2.2 Unless specified otherwise in the applicable annex, for the compressive strength, absorption, unit weight (density), andmoisture content determinations, one set of units shall be selected from each lot of
25、10 000 units or fraction thereof and two setsof units from each lot of more than 10 000 and less than 100 000 units. For lots of more than 100 000 units, one set of units shallbe selected from each 50 000 units or fraction thereof contained in the lot. Additional specimens shall be taken if directed
26、 by thepurchaser.5.3 Remove loose material from the specimens (including the cores) prior to determining the received weight.NOTE 3An abrasive stone or wire brush is typically used to remove loose material.5.4 IdentificationMark each specimen so that it may be identified at any time. Markings shall
27、cover not more than 5 % of thesurface area of the specimen.5.5 Received WeightWeigh each specimen immediately after sampling and marking, and record as Wr(received weight).Record time and place Wrwas measured.NOTE 4Received weights often have direct relationships with other unit properties and are t
28、herefore a useful method of evaluating results or forsorting purposes. The weight of a concrete masonry unit and related unit changes with time and exposure conditions, primarily as a result of the moisturewithin the unit. Therefore, to understand the context of a received weight value, it is also i
29、mportant to understand the point in time and the frame ofreference when that weight was determined. “Time and place” should not refer to when and where the unit was sampled but when and where the receivedweights were determined. In addition to date and time references, it is also important to know i
30、f those weights were determined after units reachedequilibrium with lab environment, or before units were shipped, or after delivery to the job site, and so forth.6. Measurement of Dimensions6.1 Apparatus:6.1.1 Measurement DevicesDevices used to measure specimen dimensions shall have divisions not g
31、reater than 0.1 in. (2.5mm) when the dimension is to be reported to the nearest 0.1 in. (2.5 mm) and not greater than 0.01 in. (0.25 mm) when thedimension is to be reported to the nearest 0.01 in. (0.25 mm).6.1.2 Measuring devices shall be readable and accurate to the division required to be reporte
32、d.Accuracy shall be verified at leastonce annually. Verification record shall showinclude date of verification, person or agency performing verification, identificationof reference standard used, test points used during verification, and readings at test points.6.2 SpecimensThree full-size units sha
33、ll be selected for measurement of dimensions.6.3 MeasurementsMeasure specimens in accordance with the applicable annex of this standard. For those products notcovered by the annexes of this standard, measure overall dimensions (width, height, length) in at least two locations on oppositesides of the
34、 specimen to the nearest division required to be reported. Document location of each measurement on a sketch orphotograph of the specimen.NOTE 5Specimens used for measurement of dimensions may be used in other tests.NOTE 6Calipers, micrometers, and steel scales and dividers of the appropriate accura
35、cy and readability have been shown to be adequate for thesemeasurements.7. Compressive Strength7.1 Test Apparatus:7.1.1 The testing machine shall have an accuracy of 61.0 % over the anticipated load range. The upper platen shall be aspherically seated, hardened metal block firmly attached at the cen
36、ter of the upper head of the machine. The center of the sphereshall lie at the center of the surface held in its spherical seat but shall be free to turn in any direction, and its perimeter shall haveat least14 in. (6.3 mm) clearance from the head to accommodate specimens whose bearing surfaces are
37、not parallel. The diameterof the upper platen (determined in accordance with Annex A8) shall be at least 6 in. (150 mm). A hardened metal bearing platemay be used beneath the specimen to minimize wear of the lower platen of the machine.7.1.2 When the bearing area of the upper platen or lower platen
38、is not sufficient to cover the area of the specimen, a single steelplate with a thickness equal to at least the distance from the edge of the platen to the most distant corner of the specimen shallbe placed between the platen and the capped specimen. The length and width of the steel plate shall be
39、at least14 in. (6 mm) greaterthan the length and width of the units.7.1.3 The surfaces of the platen or plate intended for contact with the specimen shall have a hardness not less than HRC 60C140 113(BHN 620). The surfaces of the platen and plate shall not depart from plane surfaces by more than 0.0
40、01 in. (0.03 mm) in any 6in. (150 mm) dimension.NOTE 7Research has shown that thickness of bearing plates has a significant effect on the tested compressive strength of masonry units when thebearing area of the platen is not sufficient to cover the area of the specimen. Plate bending results in nonu
41、niform stress distributions that can influencethe failure mechanisms of the tested specimens. The magnitude of this effect is controlled by the stiffness of the plate, the size of the specimen tested,and the strength of the specimen. Tested compressive strengths will typically increase with increase
42、d plate thickness and with reduced distance to thefurthest corner of the specimen. Some testing laboratories have limitations that limit the practicality of eliminating plate bending entirely. Therefore theplate thickness requirements in 7.1 are intended to provide an adequate level of accuracy in t
43、he compression test results so as to conform to the limitsof practicality of the testing laboratory.NOTE 8AnnexA8 includes guidance on determining the required plate thickness based on the configuration of the test specimen and the test machine.7.1.4 The testing machine shall be verified in accordan
44、ce with Practices E4 at a frequency defined by Practice C1093.7.2 Test Specimens:7.2.1 Unless specified otherwise in the applicable annex, test three specimens in compression.7.2.2 When possible and unless specified otherwise in the applicable annex, specimens shall be full-sized units. When the uni
45、tscannot be tested full-size due to specimen configuration or testing machine requirements, reduce the specimen size in accordancewith Annex A1.7.2.3 After delivery to the laboratory, store compression specimens (unstacked and separated by not less than 0.5 in. (13 mm)on all sides) continuously in a
46、ir at a temperature of 75 6 15F (24 6 8C) and a relative humidity of less than 80 % for not lessthan 48 h. Alternatively, if compression results are required sooner, store units unstacked in the same environment described abovewith a current of air from an electric fan passing over them for a period
47、 of not less than 4 h. Continue passing air over the specimensuntil two successive weighings at intervals of 2 h show an increment of loss not greater than 0.2 % of the previously determinedweight of the specimen and until no moisture or dampness is visible on any surface of the unit. Specimens shal
48、l not be subjectedto oven-drying.NOTE 9In this test method, net area (other than certain solid units, see 9.4) is determined from specimens other than those subjected to compressiontesting. The compressive strength method is based on the assumption that units used for determining net volume (absorpt
49、ion specimens) have the samenet volume as units used for compression testing. Sampled split face units, which have irregular surfaces, should be divided at the time they are sampledfrom the lot, such that the absorption test specimens have a net volume that is visually representative and a weight that is representative of the compressiontest specimens.7.2.4 Where saw-cutting of test specimens is allowed or required by the standard or applicable annex, sawing shall be performedin an accurate, competent manner, subjecting the specimen to as little saw vib
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