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本文(ASTM D3967-2008 Standard Test Method for Splitting Tensile Strength of Intact Rock Core Specimens《完整岩心试样张裂抗拉强度的标准试验方法》.pdf)为本站会员(sofeeling205)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!

ASTM D3967-2008 Standard Test Method for Splitting Tensile Strength of Intact Rock Core Specimens《完整岩心试样张裂抗拉强度的标准试验方法》.pdf

1、Designation: D 3967 08Standard Test Method forSplitting Tensile Strength of Intact Rock Core Specimens1This standard is issued under the fixed designation D 3967; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last rev

2、ision. 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 This test method covers testing apparatus, specimenpreparation, and testing procedures for determining the split-ting tensile

3、 strength of rock by diametral line compression of adisk.NOTE 1The tensile strength of rock determined by tests other than thestraight pull test is designated as the “indirect” tensile strength and,specifically, the value obtained in Section 9 of this test is termed the“splitting” tensile strength.1

4、.2 The values stated in SI units are to be regarded as thestandard. The values in parentheses are mathematical conver-sions and are provided for information only.1.3 All dimension and force measurements, and stresscalculations shall conform to the guidelines for significantdigits and rounding establ

5、ished in Practice D 6026.1.4 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations pri

6、or to use.2. Referenced Documents2.1 ASTM Standards:2D 653 Terminology Relating to Soil, Rock, and ContainedFluidsD 3740 Practice for Minimum Requirements for AgenciesEngaged in Testing and/or Inspection of Soil and Rock asUsed in Engineering Design and ConstructionD 6026 Practice for Using Signific

7、ant Digits in Geotechni-cal DataE4 Practices for Force Verification of Testing MachinesE 691 Practice for Conducting an Interlaboratory Study toDetermine the Precision of a Test Method3. Terminology3.1 Refer to Terminology D 653 for specific definitions.4. Significance and Use4.1 By definition the t

8、ensile strength is obtained by thedirect uniaxial tensile test. But the tensile test is difficult andexpensive for routine application. The splitting tensile testappears to offer a desirable alternative, because it is muchsimpler and inexpensive. Furthermore, engineers involved inrock mechanics desi

9、gn usually deal with complicated stressfields, including various combinations of compressive andtensile stress fields. Under such conditions, the tensile strengthshould be obtained with the presence of compressive stresses tobe representative of the field conditions. The splitting tensilestrength te

10、st is one of the simplest tests in which such stressfields occur. Since it is widely used in practice, a uniform testmethod is needed for data to be comparable. A uniform test isalso needed to ensure that the disk specimens break diametrallydue to tensile pulling along the loading diameter.NOTE 2Not

11、withstanding the statements on precision and bias con-tained in this test method; the precision of this test method is dependenton the competence of the personnel performing it, and the suitability of theequipment and facilities used. Agencies that meet the criteria of PracticeD 3740 are generally c

12、onsidered capable of competent and objectivetesting. Reliable testing depends on many factors; Practice D 3740provides a means of evaluating some of these factors.5. Apparatus5.1 Loading Device, to apply and measure axial load on thespecimen, of sufficient capacity to apply the load at a rateconform

13、ing to the requirements in 8.3. It shall be verified atsuitable time intervals in accordance with Practices E4andshall comply with the requirements prescribed therein.5.2 Bearing SurfacesThe testing machine shall beequipped with two steel bearing blocks having a Rockwellhardness of not less than 58

14、HRC (see Note 3).NOTE 3False platens, with bearing faces conforming to the require-ments of this standard, may be used. These shall be oil hardened to morethan 58 HRC, and surface ground. With abrasive rocks these platens tendto roughen after a number of specimens have been tested, and hence needto

15、be surfaced from time to time.1This test method is under the jurisdiction ofASTM Committee D18 on Soil andRock and is the direct responsibility of Subcommittee D18.12 on Rock Mechanics.Current edition approved July 1, 2008. Published July 2008. Originally approvedin 1981. Last previous edition appro

16、ved in 2005 as D 3967 05.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandardsvolume information, refer to the standards Document Summary page onthe ASTM website.1*A Summary of Changes section appear

17、s at the end of this standard.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.5.2.1 Flat Bearing BlocksDuring testing the specimencan be placed in direct contact with the machine bearing plates(or false platens, if used) (see Fig. 1).

18、 The bearing faces shallnot depart from a plane by more than 0.0125 mm when theplatens are new and shall be maintained within a permissiblevariation of 0.025 mm. The bearing block diameter shall be atleast as great as the specimen thickness.5.2.2 Curved Bearing Blocks, may be used to reduce theconta

19、ct stresses. The radius of curvature of the supplementarybearing plates shall be so designed that their arc of contact withthe specimen will in no case exceed 15 or that the width ofcontact is less than D/6, where D is the diameter of thespecimen.NOTE 4Since the equation used in 9.1 for splitting te

20、nsile strength isderived based on a line load, the applied load shall be confined to a verynarrow strip if the splitting tensile strength test is to be valid. But a lineload creates extremely high contact stresses which cause prematurecracking. A wider contact strip can reduce the problems significa

21、ntly.Investigations show that an arc of contact smaller than 15 causes no morethan 2 % of error in principal tensile stress while reducing the incidenceof premature cracking greatly.5.2.3 Spherical SeatingOne of the bearing surfacesshould be spherically seated and the other a plain rigid block.The d

22、iameter of the spherical seat shall be at least as large asthat of the test specimen, but shall not exceed twice thediameter of the test specimen. The center of the sphere in thespherical seat shall coincide with the center of the loaded sideof the specimen. The spherical seat shall be lubricated to

23、 assurefree movement. The movable portion of the platen shall be heldclosely in the spherical seat, but the design shall be such thatthe bearing face can be rotated and tilted through small anglesin any direction.5.2.4 Rigid SeatingIf a spherical seat is not used, the facesof the bearing blocks shal

24、l be parallel to 0.0005 mm/mm of theblock diameter. This criterion shall be met when the blocks arein the loading device and separated by approximately thediameter of the test specimen.5.3 Bearing Strips 0.01 D thick cardboard cushions, whereD is the specimen diameter; or up to 6.4 mm (0.25 in.) thi

25、ckplywood cushions are recommended to be placed between themachine bearing surfaces (or supplementary bearing plates; ifused) and the specimen to reduce high stress concentration.NOTE 5Experience has indicated that test results using the curvedsupplementary bearing plates and bearing strips, as spec

26、ified in 5.2.2 and5.3, respectively, do not significantly differ from each other, but there maybe some consistent difference from the results of tests in which directcontact between the specimen and the machine platen is used.6. Sampling6.1 The specimens shall be selected from the core to obtainthe

27、type of rock under consideration. This can be achieved byvisual observations to select a range of specimens based onmineral constituents, grain sizes and shape, partings, anddefects such as pores and fissures.7. Test Specimens7.1 DimensionsThe test specimen shall be a circular diskwith a thickness-t

28、o-diameter ratio (t/D) between 0.2 and 0.75.The diameter of the specimen shall be at least 10 times greaterthan the largest mineral grain constituent.Adiameter of 54 mm(1-1516 in.) (NX core) will generally satisfy this criterion.NOTE 6When cores smaller than the specified minimum must betested becau

29、se of the unavailability of material, notation of the fact shallbe made in the test report.NOTE 7If the specimen shows apparent anisotropic features such asbedding or schistosity, care shall be exercised in preparing the specimenso that the orientation of the loading diameter relative to anisotropic

30、features can be determined precisely.7.2 Number of SpecimensAt least ten specimens shall betested to obtain a meaningful average value. If the reproduc-ibility of the test results is good (coefficient of variation lessthan 5 %), a smaller number of specimens is acceptable.7.3 The circumferential sur

31、face of the specimen shall besmooth and straight to 0.50 mm (0.020 in.).7.4 Cut the ends of the specimen parallel to each other andat right angles to the longitudinal axis. The ends of thespecimen shall not deviate from perpendicular to the core axisby more than 0.5. This requirement can be generall

32、y met bycutting the specimen with a precision diamond saw.7.5 Determine the diameter of the specimen to the nearest0.25 mm (0.01 in.) by taking the average of at least threemeasurements, one of which shall be along the loadingdiameter.7.6 Determine the thickness of the specimen to the nearest0.25 mm

33、 (0.01 in.) by taking the average of at least threemeasurements, one of which shall be at the center of the disk.FIG. 1 One Proposed Testing Setup for Splitting Tensile StrengthD39670827.7 The moisture conditions of the specimen at the time oftest can have a significant effect upon the indicated str

34、ength ofthe rock. The field moisture condition for the specimen shall bepreserved until the time of test. On the other hand, there maybe reasons for testing specimens at other moisture contents,including zero, and preconditioning of specimen when mois-ture control is needed. In any case, tailor the

35、moisture contentof the test specimen to the problem at hand and report it inaccordance with 10.1.6.8. Procedure8.1 MarkingThe desired vertical orientation of the speci-men shall be indicated by marking a diametral line on each endof the specimen. These lines shall be used in centering thespecimen in

36、 the testing machine to ensure proper orientation,and they are also used as the reference lines for thickness anddiameter measurements.NOTE 8If the specimen is anisotropic, take care to ensure that themarked lines in each specimen refer to the same orientation.8.2 PositioningPosition the test specim

37、en to ensure thatthe diametral plane of the two lines marked on the ends of thespecimen lines up with the center of thrust of the sphericallyseated bearing surface to within 1.25 mm (0.05 in.).NOTE 9A good line loading can often be attained by rotating thespecimen about its axis until there is no li

38、ght visible between the specimenand the loading platens. Back lighting helps in making this observation.8.3 LoadingApply a continuously increasing compressiveload to produce an approximately constant rate of loading ordeformation such that failure will occur within 1 to 10 min ofloading, which shoul

39、d fall between 0.05 and 0.35 MPa/s (500and 3000 psi/min) of loading rate, depending on the rock type.NOTE 10Results of tests by several investigators indicate that rates ofloading at this range are reasonably free from rapid loading effects.9. Calculation9.1 The splitting tensile strength of the spe

40、cimen shall becalculated as follows:st5 2P/pLD (1)and the result shall be expressed to the appropriate numberof significant figures (usually 3),where:st= splitting tensile strength, MPa (psi),P = maximum applied load indicated by the testing ma-chine, N (or lbf),L = thickness of the specimen, mm (or

41、 in.), andD = diameter of the specimen, mm (or in.).10. Report10.1 The report shall include as much of the following aspossible:10.1.1 Sources of the specimen including project name andlocation, and if known, storage environment. The location isfrequently specified in terms of the borehole number an

42、d depthof specimen from collar of hole.10.1.2 Physical description of the specimen including rocktype; location and orientation of apparent weakness planes,bedding planes, and schistosity; large inclusions or inhomoge-neities, if any.10.1.3 Dates of sampling and testing.10.1.4 Specimen diameter and

43、length, conformance withdimensional requirements, direction of loading if anisotropyexists. Type of contact between the specimen and the loadingplatens.10.1.5 Rate of loading or deformation rate.10.1.6 General indication of moisture condition of thespecimen at time of test such as as-received, satur

44、ated, labo-ratory air dry, or oven dry. It is recommended that the moisturecondition be more precisely determined when possible andreported as either water content or degree of saturation.10.1.7 Splitting tensile strength of each specimen as calcu-lated, average splitting tensile strength of all spe

45、cimens,standard deviation or coefficient of variation.10.1.8 Type and location of failure.Asketch of the fracturedspecimen is recommended.10.1.9 For purposes of comparing calculated values withspecified limits, the calculated values shall be rounded to thenearest decimal given in the specification l

46、imits in accordancewith the provisions of Practice D 6026.11. Precision and Bias11.1 An interlaboratory study was conducted in which sevenlaboratories each tested five specimens of four different rocks.The specimens were cored by a single laboratory from acommon set of samples and randomly distribut

47、ed to the testinglaboratories for testing. The study was carried out in accor-dance with Practice E 691. Details of the study are given in ISRResearch Report No. PS #D18.12-R01, 1992, and its Adden-dum, 1994. The table below gives the repeatability limit(within a laboratory) and reproducibility limi

48、t (between labo-ratories) for the method.11.1.1 The probability is approximately 95 % that two testresults obtained in the same laboratory on the same materialwill not differ by more than the repeatability limit. Likewise,the probability is approximately 95 % that two test resultsobtained in differe

49、nt laboratories on the same material will notdiffer by more than reproducibility limit.11.2 The variability of rock and resultant inability to deter-mine a true reference value prevent development of a mean-ingful statement of bias.12. Keywords12.1 compression testing; indirect tensile strength; loadingtests; rock; splitting tensile strength; tension (tensile)properties/testsTABLE 1 Splitting Tensile Strength (MPa)BereaSandstoneSalemLimestoneTennesseeMarbleBarreGraniteAverage Value 3.85 4.92 9.39 13.66Repeatability Limit 1.24 1.56 3.63 4.31Reproducibility Limit

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