ASTM C1383-2004(2010) Standard Test Method for Measuring the P-Wave Speed and the Thickness of Concrete Plates Using the Impact-Echo Method《用冲击回波法测量混凝土板的P-波速度和厚度的标准试验方法》.pdf

上传人:王申宇 文档编号:464436 上传时间:2018-11-27 格式:PDF 页数:11 大小:208.35KB
下载 相关 举报
ASTM C1383-2004(2010) Standard Test Method for Measuring the P-Wave Speed and the Thickness of Concrete Plates Using the Impact-Echo Method《用冲击回波法测量混凝土板的P-波速度和厚度的标准试验方法》.pdf_第1页
第1页 / 共11页
ASTM C1383-2004(2010) Standard Test Method for Measuring the P-Wave Speed and the Thickness of Concrete Plates Using the Impact-Echo Method《用冲击回波法测量混凝土板的P-波速度和厚度的标准试验方法》.pdf_第2页
第2页 / 共11页
ASTM C1383-2004(2010) Standard Test Method for Measuring the P-Wave Speed and the Thickness of Concrete Plates Using the Impact-Echo Method《用冲击回波法测量混凝土板的P-波速度和厚度的标准试验方法》.pdf_第3页
第3页 / 共11页
ASTM C1383-2004(2010) Standard Test Method for Measuring the P-Wave Speed and the Thickness of Concrete Plates Using the Impact-Echo Method《用冲击回波法测量混凝土板的P-波速度和厚度的标准试验方法》.pdf_第4页
第4页 / 共11页
ASTM C1383-2004(2010) Standard Test Method for Measuring the P-Wave Speed and the Thickness of Concrete Plates Using the Impact-Echo Method《用冲击回波法测量混凝土板的P-波速度和厚度的标准试验方法》.pdf_第5页
第5页 / 共11页
亲,该文档总共11页,到这儿已超出免费预览范围,如果喜欢就下载吧!
资源描述

1、Designation: C1383 04 (Reapproved 2010)Standard Test Method forMeasuring the P-Wave Speed and the Thickness ofConcrete Plates Using the Impact-Echo Method1This standard is issued under the fixed designation C1383; the number immediately following the designation indicates the year oforiginal adoptio

2、n 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 This test method covers procedures for determining thethickness of concrete

3、 slabs, pavements, bridge decks, walls, orother plate-like structure using the impact-echo method.1.2 The following two procedures are covered in this testmethod:1.2.1 Procedure A: P-Wave Speed MeasurementThis pro-cedure measures the time it takes for the P-wave generated bya short-duration, point i

4、mpact to travel between two transduc-ers positioned a known distance apart along the surface of astructure. The P-wave speed is calculated by dividing thedistance between the two transducers by the travel time.1.2.2 Procedure B: Impact-Echo TestThis procedure mea-sures the frequency at which the P-w

5、ave generated by ashort-duration, point impact is reflected between the parallel(opposite) surfaces of a plate. The thickness is calculated fromthis measured frequency and the P-wave speed obtained fromProcedure A.1.2.3 Unless specified otherwise, both Procedure A andProcedure B must be performed at

6、 each point where a thicknessdetermination is made.1.3 The values stated in SI units are to be regarded asstandard. No other units of measurement are included in thisstandard.1.4 The text of this standard references notes and footnotesthat provide explanatory material. These notes and footnotes(excl

7、uding those in tables and figures) shall not be consideredas requirements of the standard.1.5 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 practic

8、es and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2C597 Test Method for Pulse Velocity Through ConcreteE1316 Terminology for Nondestructive Examinations3. Terminology3.1 Definitions:3.1.1 acoustic impedance, nthe product of P-wave sp

9、eedand density that is used in computations of characteristics ofstress wave reflection at boundaries.3.1.2 amplitude spectrum, na plot of relative amplitudeversus frequency that is obtained from the waveform using aFourier transform technique.3.1.3 Fourier transform, na numerical technique used toc

10、onvert digital waveforms from the time domain to thefrequency domain.3.1.3.1 DiscussionThe peaks in the amplitude spectrumcorrespond to the dominant frequencies in the waveform.3.1.4 impact-echo method, na send-receive nondestruc-tive test method based on the use of a short-duration mechani-cal impa

11、ct to generate transient stress waves and the use of abroadband receiving transducer placed adjacent to the impactpoint.3.1.4.1 DiscussionWaveforms are converted to the fre-quency domain and the resulting amplitude spectra are ana-lyzed to obtain the dominant frequencies in the structuresresponse to

12、 the impact. These frequencies are used to deter-mine the thickness of the structure or the presence of flaws.3.1.5 impact duration, nthe time that the impactor used togenerate stress waves is in contact with the test surface. Alsoreferred to as contact time.3.1.5.1 DiscussionThe impact duration is

13、a critical aspectin the success of the two procedures covered by this method.Recommended impact durations are given. In practice, theimpact duration will depend on the type of impactor and the1This test method is under the jurisdiction of ASTM Committee C09 onConcrete and Concrete Aggregates and is

14、the direct responsibility of SubcommitteeC09.64 on Nondestructive and In-Place Testing.Current edition approved Dec. 15, 2010. Published March 2011. Originallyapproved in 1998. Last previous edition approved in 2004 as C138304. DOI:10.1520/C1383-04R10.2For referenced ASTM standards, visit the ASTM w

15、ebsite, 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 S

16、tates.condition of the concrete at the point of impact. Smooth, hardsurfaces will result in shorter impact durations than rough, softsurfaces. The user should verify that the impact durations arewithin the recommended ranges. An approximate measure ofthe impact duration can be obtained from the port

17、ion of thewaveform corresponding to the surface wave arrival.3Fig. 1shows an example of the surface-wave portion of a waveformand the approximate contact time is indicated.3.1.6 P-wave, nthe dilatational (longitudinal or primary)stress wave that causes particle displacement parallel to thedirection

18、of wave propagation. This wave produces normalstresses (tensile or compressive) as it propagates.3.1.7 P-wave speed, nthe speed with which the P-wavepropagates through a semi-infinite solid.3.1.7.1 DiscussionThe P-wave speed is the same as thecompressional pulse velocity measured according to TestMe

19、thod C597.3.1.8 sampling frequency, nthe rate at which the pointsthat comprise the waveform are recorded; the inverse of thesampling interval, expressed in Hz or samples/s (also referredto as sampling rate).3.1.9 sampling period, nthe duration of the waveform,which equals the number of points in the

20、 waveform multipliedby the sampling interval.3.1.10 sampling interval, nthe time difference betweenany two adjacent points in the waveform.3.1.11 surface wave, na stress wave in which the particlemotion is elliptical and the amplitude of particle motiondecreases rapidly with depth.Also known as Rayl

21、eigh wave (orR-wave).3.1.12 waveform, na recorded signal from a transducerthat is a plot of voltage versus time.3.1.13 Refer to Terminology E1316 for additional defini-tions, related to nondestructive ultrasonic examination, that areapplicable to this test method.3.2 Definitions of Terms Specific to

22、 This Standard:3.2.1 apparent P-wave speed in a plate3,4, na parameterthat is 0.96 of the P-wave speed:Cp, plate5 0.96 Cp(1)where:Cp, plate= the apparent P-wave speed in a plate, m/s, andCp= the P-wave speed in concrete that is obtainedfrom Procedure A, m/s.3.2.1.1 DiscussionThis parameter is used i

23、n thicknesscalculations in impact-echo measurements on plates. TheP-wave speed in a material (concrete) is converted to theapparent P-wave speed in a plate that is used to calculate theplate thickness by the following equation:T 5Cp, plate2f(2)where:T = the thickness of the plate, m, andf = the freq

24、uency of the P-wave thickness mode of theplate obtained from the amplitude spectrum, Hz.3.2.2 plate, nany prismatic structure where the lateraldimensions are at least six times the thickness.3.2.2.1 DiscussionMinimum lateral dimensions are nec-essary to prevent plate modes3of vibration from interfer

25、ingwith the identification of the thickness mode frequency in theamplitude spectrum. The minimum lateral dimensions andacceptable sampling period are related, as explained in Note11.4. Significance and Use4.1 This test method may be used as a substitute for, or inconjunction with, coring to determin

26、e the thickness of slabs,pavements, decks, walls, or other plate structures. There is acertain level of systematic error in the calculated thickness dueto the discrete nature of the digital records that are used. Theabsolute systematic error depends on the plate thickness, thesampling interval, and

27、the sampling period.4.2 Because the wave speed can vary from point-to-point inthe structure due to differences in concrete age or batch-to-batch variability, the wave speed is measured (Procedure A) ateach point where a thickness determination (Procedure B) isrequired.4.3 The maximum and minimum thi

28、ckness that can bemeasured is limited by the details of the testing apparatus(transducer response characteristics and the specific impactor).The limits shall be specified by manufacturer of the apparatus,and the apparatus shall not be used beyond these limits. If testequipment is assembled by the us

29、er, thickness limitations shallbe established and documented.4.4 This test method is not applicable to plate structureswith overlays, such as a concrete bridge deck with an asphalt3Sansalone, M. and Streett, W.B., Impact-Echo: Nondestructive Evaluation ofConcrete and Masonry, Bullbrier Press, Ithaca

30、, NY and Jersey Shore, PA, 1997.4Sansalone, M., Lin, J. M., and Streett, W. B., “A Procedure for DeterminingP-wave Speed in Concrete for Use in Impact-Echo Testing Using P-wave SpeedMeasurement Technique,” ACI Journal, Vol. 94, No. 6, NovemberDecember 1997,pp. 531539.FIG. 1 Expanded View of Surface-

31、Wave Portion of WaveformShowing the Width of the Surface Wave Signal as anApproximation of the Contact Time of the ImpactC1383 04 (2010)2or portland cement concrete overlay. The method is based onthe assumption that the concrete plate has the same P-wavespeed throughout its depth.4.5 Procedure A is

32、performed on concrete that is air dry ashigh surface moisture content may affect the results.4.6 Procedure B is applicable to a concrete plate resting ona subgrade of soil, gravel, permeable asphalt concrete, or leanportland cement concrete provided there is sufficient differencein acoustic impedanc

33、e3between the concrete and subgrade orthere are enough air voids at the interface to produce measur-able reflections. If these conditions are not satisfied, thewaveform will be of low amplitude and the amplitude spectrumwill not include a dominant peak at the frequency correspond-ing to the thicknes

34、s (Eq 2). If the interface between theconcrete and subgrade is rough, the amplitude spectrum willhave a rounded peak instead of a sharp peak associated with aflat surface.4.7 The procedures described are not influenced by trafficnoise or low frequency structural vibrations set up by normalmovement o

35、f traffic across a structure.4.8 The procedures are not applicable in the presence ofmechanical noise created by equipment impacting (jack ham-mers, sounding with a hammer, mechanical sweepers, and soforth) on the structure.4.9 Procedure A is not applicable in the presence of highamplitude electrica

36、l noise, such as may produced by a genera-tor or some other source, that is transmitted to the data-acquisition system.PROCEDURE AP-WAVE SPEED MEASUREMENT5. Summary of Procedure5.1 An impact on the concrete surface is used to generatetransient stress waves. These waves propagate along thesurface of

37、the concrete past two transducers, placed on a linethrough the impact point and at a known distance apart.5.2 The time difference between the arrival of the P-wave(stress wave with highest speed) at each transducer is used todetermine the P-wave speed by dividing the time difference(travel time) by

38、the known distance between the transducers.6. Apparatus56.1 ImpactorThe impactor shall be spherical or spheri-cally tipped. It shall produce an impact duration of 30 6 10 swith sufficient energy to produce surface displacements due tothe P-wave that can be recorded by the two transducers (seeNote 1)

39、. The impactor shall be positioned to strike on thecenterline passing through the two transducers at a distance of150 6 10 mm from the first transducer.NOTE 1Hardened steel balls ranging from 5 to 8 mm in diameter andattached to steel spring rods have been found to produce suitable impacts.6.2 Trans

40、ducersTwo broadband transducers that respondto displacements normal to the surface. These transducers mustbe capable of detecting the small displacements that corre-spond to the arrival of the impact-generated P-wave travelingalong the surface. A small contact area between the piezoelec-tric element

41、 and the concrete surface is required to recordaccurately the arrival of the P-wave (see Note 2). Use a suitablematerial to couple the transducer to the concrete.NOTE 2Acommercially available displacement transducer made froma conical piezoelectric element with a tip diameter of 1.5 mm and thelarger

42、 end attached to a brass backing block has been found suitable.6Alead sheet approximately 0.25 mm thick is a suitable coupling material forsuch a transducer.6.2.1 Acceptable transducers shall be previously docu-mented to produce accurate results for plate thicknesses similarto those being measured b

43、y this test method.6.3 Spacer DeviceA spacer device shall be provided tohold the transducers a fixed distance apart. It shall not interferewith the ability of the transducers to measure surface displace-ment. It shall be manufactured to minimize the possibility ofP-wave transmission through it so as

44、 to prevent interferencewith measurement of the P-wave travel time. The transducertips shall be placed about 300 mm apart. Measure and record tothe nearest 1 mm the actual distance between the centers of thetransducer tips.NOTE 3The accuracy of the measurement is affected if the distancebetween the

45、tips of the two transducers is not known accurately. Thematerials and design of the spacer device should be chosen to minimizethe change in separation of the transducers due to changes in temperature.6.4 Data-Acquisition SystemHardware and software foracquiring, recording, and processing the output

46、of the twotransducers. This system can be a portable computer with atwo-channel data-acquisition card, or it can be a portabletwo-channel waveform analyzer.6.4.1 The sampling frequency for each channel shall be 500kHz or higher (sampling interval of 2 s or less). The systemshall be capable of trigge

47、ring on the signal from one of therecording channels.6.4.2 The voltage range and voltage resolution of the dataacquisition system shall be matched with the sensitivity of thetransducers so that the arrival of the P-wave is determinedaccurately.NOTE 4For example, a computer data acquisition card with

48、 a voltagerange of 62.5 V and 12-bit resolution has been found to be suitable for thetransducer described in Note 2.6.4.3 The display system shall include cursors, including acorresponding readout of time and voltage, that can be posi-tioned at the point in each waveform corresponding to theP-wave a

49、rrival.6.4.4 The data-acquisition system shall be operated by apower source that does not produce electrical noise detectableby the transducers and data acquisition system when the systemis set at the voltage sensitivity required to detect the arrivals ofthe P-wave.NOTE 5Battery-powered data acquisition systems have been foundsuitable.6.5 Cables and ConnectorsTo connect the transducers tothe data acquisition system. Connectors shall be high quality5Suitable apparatus is available commercially.6Proctor, T.M., Jr., “Some Details on the NBS Conical

展开阅读全文
相关资源
猜你喜欢
相关搜索

当前位置:首页 > 标准规范 > 国际标准 > ASTM

copyright@ 2008-2019 麦多课文库(www.mydoc123.com)网站版权所有
备案/许可证编号:苏ICP备17064731号-1