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本文(ASTM E1486M-1998(2004) Standard Test Method for Determining Floor Tolerances Using Waviness Wheel Path and Levelness Criteria [Metric]《利用波纹度、行车轨迹和水平度准则(米制)测定地板公差的标准试验方法》.pdf)为本站会员(Iclinic170)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 E1486M-1998(2004) Standard Test Method for Determining Floor Tolerances Using Waviness Wheel Path and Levelness Criteria [Metric]《利用波纹度、行车轨迹和水平度准则(米制)测定地板公差的标准试验方法》.pdf

1、Designation: E 1486M 98 (Reapproved 2004)METRICStandard Test Method forDetermining Floor Tolerances Using Waviness, Wheel Pathand Levelness Criteria Metric1This standard is issued under the fixed designation E 1486M; the number immediately following the designation indicates the year oforiginal adop

2、tion or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon (e) indicates an editorial change since the last revision or reapproval.1. Scope1.1 This test method covers data collection and analysisprocedures to deter

3、mine surface flatness and levelness bycalculating waviness indices for survey lines and surfaces,elevation differences of defined wheel paths, and levelnessindices using SI units.NOTE 1This test method is the companion to inch-pound Test MethodE 1486.NOTE 2This test method was not developed for, and

4、 does not apply toclay or concrete paver units.1.1.1 The purpose of this test method is to provide the userwith floor tolerance estimates as follows:1.1.1.1 Local survey line waviness and overall surfacewaviness indices for floors based on deviations from themidpoints of imaginary chords as they are

5、 moved along a floorelevation profile survey line. End points of the chords arealways in contact with the surface. The imaginary chords cutthrough any points in the concrete surface higher than thechords.1.1.1.2 Defined wheel path criteria based on transverse andlongitudinal elevation differences, c

6、hange in elevation differ-ence, and root mean square (RMS) elevation difference.1.1.1.3 Levelness criteria for surfaces characterized by ei-ther of the following methods: the conformance of elevationdata to the test section elevation data mean; or by theconformance of the RMS slope of each survey li

7、ne to aspecified slope for each survey line.1.1.2 The averages used throughout these calculations arethe root mean squares, RMS (that is, the quadratic means). Thistest method gives equal importance to humps and dips,measured up (+) and down (), respectively, from the imagi-nary chords.1.1.3 Appendi

8、x X1 is a commentary on this test method.Appendix X2 provides a computer program for waviness indexcalculations based on this test method.1.2 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

9、establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Document2.1 ASTM Standards:2E 1486 Test Method for Determining Floor Tolerances Us-ing Waviness, Wheel Path, and Levelness Criteria3. Terminology3.1 Descriptions o

10、f Terms Specific to This Standard:3.1.1 defined wheel path traffctraffic on surfaces, orspecifically identifiable portions thereof, intended for definedlinear traffic by vehicles with two primary axles and fourprimary load wheel contact points on the floor and withcorresponding front and rear primar

11、y wheels in approximatelythe same wheel paths.3.1.2 levelnessdescribed in two ways: the conformance ofsurface elevation data to the mean elevation of a test section,elevation conformance; and as the conformance of survey lineslope to a specified slope, RMS levelness.3.1.2.1 elevation conformancethe

12、percentage of surfaceelevation data, hi, that lie within the tolerance specified fromthe mean elevation of a test section from the mean elevation ofall data within a test section. The absolute value of the distanceof all points, hi, from the test section data mean is tested againstthe specification,

13、 dmax. Passing values are counted, and thattotal is divided by the aggregate quantity of elevation datapoints for the test section, and percent passing is reported.3.1.2.2 RMS levelnessdirectionally dependent calculationof the RMS of the slopes of the least squares fit line throughsuccessive 4.5-m l

14、ong sections of a survey line, L. The RMSLVLis compared to the specified surface slope and specifiedmaximum deviation to determine compliance.1This test method is under the jurisdiction of ASTM Committee E06 onPerformance of Buildings and is the direct responsibility of Subcommittee E06.21on Service

15、ability.Current edition approved April 1, 2004. Published April 2004. Originallyapproved in 1994. Last previous edition approved in 1998 as E 1486M 98.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStan

16、dards 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.3.1.3 Waviness Index Terms:3.1.3.1 chord lengththe length of an imaginary straight-edge (chord)

17、 joining the two end points at j and j + 2k. Thislength is equal to 2ks (see Fig. 1) where the survey spacing, s,is equal to 0.3 m, and where k is equal to 1, 2, 3, 4, and 5 todefine chord lengths of 0.6, 1.2, 1.8, 2.4, and 3.0 m, respec-tively, unless values for s and for k are otherwise stated.3.1

18、.3.2 deviation (Dkj)the vertical distance between thesurface and the midpoint, j + ks, of a chord of length 2ks whoseend points are in contact with the surface.3.1.3.3 length adjusted RMS deviation (LADk)calculatedfor a reference length Lrof 3 m, unless otherwise stated, inorder to obtain deviations

19、 that are independent of the variouschord lengths, 2ks.3.1.3.4 wavinessthe relative degree to which a survey linedeviates from a straight line.3.2 Symbols:A = area of test section, square metres.d = point i, of the (4.5/s + 1) point subset of i =1to imax, where d is a point within the(4.5/s + 1) poi

20、nt subset, used to evaluateRMS levelness.dhL= number of elevation data points of surveyline, L, which lie within the maximumallowable deviation from the test sectionelevation data mean, dmax.Dkj= deviation from chord midpoint, j+k,to thesurvey line, mm.dmax = specified maximum allowable deviationfro

21、m the test section elevation data mean.EC = percentage of elevation data within a testsection complying to a specified maximumdeviation, dmax, from the mean of all eleva-tion data points within a test section.ECL= percentage compliance of each survey lineto a specified maximum deviation, dmax,from t

22、he mean of all elevation data pointswithin a test section.hi= elevation of the points along the survey line,mm.hai= elevation of the points along the survey lineof the left wheel path of defined wheel pathtraffic, mm.hbi= elevation of the points along the survey lineof the right wheel path of define

23、d wheel pathtraffic, mm.i = designation of the location of survey pointsalong a survey line (i = 1, 2, 3 . . . imaxL).imaxL= total number of survey points along a surveyline.imaxLx= total number of survey points along one ofthe pair of survey lines, Lx, representing thewheel paths of defined wheel p

24、ath traffic.j = designation of the location of the surveypoint which is the initial point for a devia-tion calculation (j = 1, 2, 3 . . . jmaxk).jmaxk= total number of deviation calculations with achord length 2ks along a survey line.k = number of spaces of length s between thesurvey points used for

25、 deviation calcula-tions.kmaxL= maximum number (rounded down to aninteger) of spaces of length s that can beused for deviation calculations for imaxLsurvey points (kmaxL=5unless otherwisespecified).L = designation of survey lines (L = 1, 2, 3 . . .Lmax).LADk= length-adjusted RMS deviation based onpo

26、ints spaced at ks and a reference length ofLr.Lg = total number of survey spaces between pri-mary axles of a vehicle used as the basis forlongitudinal analysis of each pair of surveylines representing the wheel paths of definedwheel path traffic. Lg equals the integerresult of the primary axle spaci

27、ng, in metresdivided by s.Lmax = number of survey lines on the test surface.Lr= reference length of 3 m, the length to whichthe RMS deviations, RMS Dk, from chordlengths other than 3 m are adjusted.LDi= longitudinal elevation difference betweencorresponding pairs of points separated byLg of defined

28、wheel paths, mm (i = 1, 2, 3. . . (imaxL Lg).LDCi= incremental change in longitudinal elevationdifference, LDialong defined wheel pathtraffic wheel paths, mm/m (i = 1, 2, 3 .(imaxLLg1).Lx = designation of the pair of survey lines usedfor defined wheel path traffic analysis.mhd= mean elevation of eac

29、h 4.5-m section ofsurvey line, L, mm (d = 1, 2, 3 . . .(imaxL 4.5/s).FIG. 1 Explanation of SymbolsE 1486M 98 (2004)2msd= mean slope of the least squares fit line ofeach 4.5-m section of survey line, L, mm/m(d = 1, 2, 3 . . . (imaxL 4.5/s).nL= total number of calculated deviations forsurvey line L (e

30、qual to the sum of the valuesof jmaxkfor all values of k that are used).naLis a weighting factor used in calculat-ing both the waviness and surface wavinessindices.RMS Dk= root mean square of chord midpoint offsetdeviations, Dkj, based on points spaced at ks.RMS LDLx= root mean square of longitudina

31、l elevationdifferences, LDi, on paired wheel path sur-vey lines for defined wheel path traffic, withprimary axles separated by Lg, mm.RMS TDLx= root mean square of transverse elevationdifferences, TDi, on paired wheel path sur-vey lines for defined wheel path traffic, mm.RMS LVL= RMS levelness, calc

32、ulated as the root meansquare slope of each survey line, L, mm/m.s = spacing between adjacent survey pointsalong a survey line (0.3 m unless a smallervalue is stated), m.SWI = surface waviness index determined by com-bining the waviness indices of all the surveylines on the test surface, mm.TDi= tra

33、nsverse elevation difference between cor-responding points of defined wheel pathtraffic wheel paths, mm (i = 1, 2, 3 .imaxLx).TDCi= incremental change in transverse elevationdifference, TDialong defined wheel pathtraffic wheel paths, mm/m (i = 1, 2, 3 .(imaxLx 1).WIL= waviness index for survey line

34、L with chordlength range from 0.6 to 3.0 m unless adifferent range is stated, mm.3.3 Sign ConventionUp is the positive direction; conse-quently, the higher the survey point, the larger its hivalue.4. Summary of Test Method4.1 EquationsEquations are provided to determine thefollowing characteristics:

35、4.1.1 Waviness Index Equations:4.1.1.1 RMS Dk= RMS deviation (see Eq 4).4.1.1.2 LADk= length-adjusted deviation (see Eq 5).4.1.1.3 WIL= waviness index (see Eqs 6 and 7).4.1.1.4 SWI = surface waviness index (see Eq 8).4.1.1.5 |Dkj| = absolute value of the length adjusted devia-tion (see Eq 24).4.1.2

36、Defined Wheel Path Traffc Equations:4.1.2.1 TDi= transverse elevation difference between thewheel paths of defined wheel path traffic (see Eq 9).4.1.2.2 TDCi= transverse change in elevation differencebetween wheel paths of defined wheel path traffic (see Eq 10).4.1.2.3 RMS TDLx= RMS transverse eleva

37、tion differencebetween wheel paths of defined wheel path traffic (see Eq 11).4.1.2.4 LDi= longitudinal elevation difference betweenfront and rear axles on wheel paths of defined wheel path traffic(see Eq 12).4.1.2.5 LDCi= longitudinal change in elevation differencebetween front and rear axles on whe

38、el paths of defined wheelpath traffic (see Eq 13).4.1.2.6 RMS LDLx= RMS longitudinal elevation differencebetween axles on wheel paths of defined wheel path traffic (seeEq 14).4.1.3 Levelness Equations:4.1.3.1 mhL= mean elevation of survey line, L, calculatedonly for use in calculating mhTS(see Eq 15

39、).4.1.3.2 mhTS= mean elevation of a test section, calculatedonly for use in calculating dhL(see Eq 16).4.1.3.3 dhL= number of elevation data points of survey line,L, passing the specification, dmax, used for calculating both ECL and EC (see Eq 17 and Eq 18).4.1.3.4 ECL= percentage of elevation data

40、points on surveyline, L, which comply with dmax (see Eq 19).4.1.3.5 EC = percentage of elevation data points within atest section complying with dmax (see Eq 20).4.1.3.6 mhd= mean elevation of each 4.5-m section ofsurvey line, L, calculated only for use in calculating RMS LVL(see Eq 21).4.1.3.7 msd=

41、 mean slope of the least squares fit line of each4.5-m section of survey line, L, calculated only for use incalculating RMS LVL(see Eq 22).4.1.3.8 RMS LVL= RMS of least squares fit 4.5-m slopes(see Eq 23).4.2 Waviness IndexChord Length Range:4.2.1 Unless a different range is specified, the wavinessi

42、ndex, WIL, shall be calculated for a 0.6, 1.2, 1.8, 2.4, and3.0-m chord length range.4.2.2 The chord length, 2ks, is limited by the total number ofsurvey points along a survey line. To ensure that the elevationof every survey point is included in the deviation calculationthat uses the largest value

43、of k, the maximum value of k, calledkmaxL, is determined by:kmaxL5 imaxL/3 rounded down to an integer! (1)4.2.3 Reduce the maximum chord length so that 2(kmaxL)sis approximately equal to the maximum length that is ofconcern to the user.NOTE 3For longer survey lines, kmaxL, determined using Eq 1,perm

44、its the use of chord lengths 2ks longer than those of interest orconcern to the floor user.4.2.4 The maximum chord length for suspended floor slabsshall be 1.2 m, unless the slab has been placed without camberand the shoring remains in place.4.3 Waviness IndexMaximum Number of Deviation Mea-surement

45、s per Chord Length:4.3.1 As the values of k are increased from 1 to kmaxL, thenumber of deviation calculations decreases.jmaxk5 imaxL2 2k (2)4.4 Waviness IndexDeviation:4.4.1 As shown in Fig. 1, the deviation, Dkj, isDkj5 hj 1 k212hj1 hj 1 2k! mm (3)E 1486M 98 (2004)34.5 Waviness IndexRMS Deviation:

46、4.5.1 RMS Dkis calculated for each chord length using allpoints along the survey line.RMS Dk5(j51jmaxkDkj2jmaxkmm (4)4.6 Waviness IndexLength-Adjusted Deviations: LADkiscalculated for a reference length, Lr, using Eq 5.LADk5 !Lr2ksF(j51jmaxkDkj2Gjmaxkmm (5)4.7 Waviness Index The values of LADkobtain

47、ed for eachvalue of k shall be combined with other LAD values for eachline L by weighing the values in proportion to jmaxkto obtainthe waviness index, WIL:WIL5(k51kmaxLjmaxkLADk2!nLmm (6)where:nL5(k51kmaxLjmaxk(7)4.8 Surface Waviness IndexThe individual values ofwaviness index, WILobtained for each

48、survey line shall becombined to give a surface waviness index, SWI, by combin-ing them in proportion to nL:SWI 5!(L51LmaxnLWIL2(L51LmaxnLmm (8)4.9 Defined Wheel Path Calculations:4.9.1 Transverse Elevation DifferenceTDiis calculatedfor a pair of wheel path survey lines, using Eq 9 (i = 1, 2, 3 .imax

49、Lx).TDi5 hbi2 hai! mm (9)where TDiis positive when the right wheel path is higher thanthe left, and negative when the right wheel path is lower thanthe left.4.9.2 Transverse Change in Elevation DifferenceTDCiiscalculated for each pair of wheel path survey lines, using Eq 10(i = 1, 2, 3 . . . (imaxLx 1).TDCi5 TDi 1 12 TDi!/s mm/m (10)where TDCiis positive when the vehicle tilted left from itsprevious position, and negative when it is tilted right from itsprevious position (i = 1, 2, 3 . . . imaxLx).4.9.3 Transverse RMS Elevation Differ

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