ASTM E2175-2001(2013) Standard Practice for Specifying the Geometry of Multiangle Spectrophotometers《说明多角分光光度计几何形状的标准实施规程》.pdf

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1、Designation: E2175 01 (Reapproved 2013)Standard Practice forSpecifying the Geometry of Multiangle Spectrophotometers1This standard is issued under the fixed designation E2175; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the yea

2、r 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.INTRODUCTIONThe appearance of metallic coatings and plastics usually depends on the directions of illuminationand viewing, a

3、phenomenon called “gonioappearance.” This phenomenon is also observed with othermaterials, such as lustrous textiles and materials containing pearlescent or interference pigments. Thecharacteristic appearance of most such materials is accentuated by directional illumination, such asthat provided by

4、the sun on a clear day or a small lamp at night. The variation in color, as a functionof geometry, is usually measured by spectrophotometry with several specified sets of geometricconditions. Measurement of this kind, at a few selected angles, is called “multianglespectrophotometry,” as distinguishe

5、d from measurement over a broad range of angles, which is called“goniospectrophotometry.” Spectrophotometric aspects of these measurements, including spectralresolution and linearity of photometric scales, are treated in other standards, including Practice E308and Practice E1164. Practice E1767 prov

6、ides practice for specifying the geometry of measurements.Retroreflectors exhibit a special kind of gonioappearance, which is treated in other ASTM documents.The present document provides standard practice for specifying influx and efflux angles, angularselectivity, spatial distributions of illumina

7、tors and receivers, and angular aspects of standardizing thephotometric scale, that are peculiar to multiangle spectrophotometry. Directional illuminationemphasizes the gonioappearance of most materials, but when interference pigments are used, such asthose used in ink to mark paper currency, the ef

8、fect is observed with diffuse illumination and varyingangles of viewing, so these materials are also measured with diffuse illumination.1. Scope1.1 This practice provides a way of specifying the angularand spatial conditions of measurement and angular selectivityof a method of measuring the spectral

9、 reflectance factors ofopaque gonioapparent materials, for a small number of sets ofgeometric conditions.1.2 Measurements to characterize the appearance of retrore-flective materials are of such a special nature that they aretreated in other ASTM documents and are not included in thescope of this st

10、andard.1.3 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 prior to use.2. Refer

11、enced Documents2.1 ASTM Standards:2E284 Terminology of AppearanceE308 Practice for Computing the Colors of Objects by Usingthe CIE SystemE1164 Practice for Obtaining Spectrometric Data for Object-Color EvaluationE1767 Practice for Specifying the Geometries of Observa-tion and Measurement to Characte

12、rize the Appearance ofMaterials3. Terminology3.1 For definitions of appearance terms used in this practice,refer to Terminology E284.4. Significance and Use4.1 This practice is for the use of manufacturers and users ofinstruments to measure the appearance of gonioapparent1This practice is under the

13、jurisdiction of ASTM Committee E12 on Color andAppearance and is the direct responsibility of Subcommittee E12.03 on Geometry.Current edition approved Oct. 1, 2013. Published October 2013. Originallyapproved in 2001. Last previous edition approved in 2008 as E2175 01 (2008).DOI: 10.1520/E2175-01R13.

14、2For 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 standards Document Summary page onthe ASTM website.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C

15、700, West Conshohocken, PA 19428-2959. United States1materials, those writing standard specifications for suchinstruments, and others who wish to specify precisely thegeometric conditions of multiangle spectrophotometry. Aprominent example of industrial usage is the routine applica-tion of such meas

16、urements by material suppliers and automo-bile manufacturers to measure the colors of metallic paints andplastics.5. Components of Apparatus5.1 The apparatus shall consist of one or more illuminatorsand one or more spectrometric receivers at fixed or adjustableangles with respect to a reference plan

17、e, a means of positioningspecimens in a reference plane, a means of indicating the areaon the specimen to be measured, shielding to avoid stray light,and a means of displaying spectral or colorimetric data and/orcommunicating such data to a data-recorder or computer. (Theterms “light,” “illuminator,

18、” “illumination,” and “illuminance”are used here for simplicity, though the corresponding terms“radiant power,” “irradiator,” “irradiation,” and “irradiance”would be more accurate when the incident flux includesultraviolet flux, as is necessary if the appearance of a fluores-cent material is measure

19、d.)6. Geometric Types of Apparatus6.1 The geometric configuration of the instrument may beuniplanar, annular, circumferential, or diffuse. In all cases, thespecimen is taken to be a flat surface lying in a plane called the“reference plane,” which is designated the x, y plane. Whenthere is a single d

20、irectional illuminator, the x direction is thedirection of the projection of the axis of the incident beam onthe reference plane. If there are several directional illuminatorsor a single diffuse illuminator, the direction of the x-axis mustbe selected and specified. The area of the reference plane o

21、nwhich measurements are made is called the “sampling aper-ture” and the center of that area is designated the origin, o, ofthe geometric space used to specify the configuration. Thenormal to the sampling aperture, at the origin, is the -z-axis.Angles subtended at the origin and measured from that no

22、rmalare called “anormal angles.” The specular direction is thedirection of the beam from a directional illuminator afterspecular reflection by an ideal plane mirror at the samplingaperture.Angles subtended at the origin and measured from thespecular direction are called“ aspecular angles” and are po

23、si-tive in sign when measured in the direction toward the normal.The normal and the axis of a directional illuminator define aplane, known as the “plane of incidence.” The speculardirection necessarily lies in that plane.6.1.1 To facilitate simple and precise geometric specifica-tion of the sampling

24、 aperture, it shall be either circular orrectangular.6.1.2 To facilitate simple and precise geometric specifica-tion of directional influx or efflux distributions, they shall beeither conical or pyramidal. For purposes of describing geom-etry by functional notation, a diffuse distribution may becons

25、idered a conical distribution centered on the normal andhaving a half angle of 90 degrees.6.1.3 In a uniplanar configuration, a directional illuminatoris used, the axes of the receivers lie in the plane of incidence,and their positions are specified by aspecular angles. Auniplanar configuration is i

26、llustrated in Fig. 1. To simplify thefigure, only one receiver is shown.6.1.3.1 For a conical influx distribution, the flux incident onthe origin comes from an area of a directional illuminatoruniformly filling a circle on a plane normal to the beam. For aconical efflux distribution, flux from the o

27、rigin is uniformlycollected and evaluated over an area of the receiver that is acircle on a plane normal to the beam.Auniplanar configurationwith conical influx and efflux distributions is illustrated in Fig.2. To simplify the figure, only one receiver is shown.6.1.3.2 For a pyramidal influx distrib

28、ution, flux incident onthe origin comes from an area of a directional illuminatoruniformly filling a rectangle on a plane normal to the beam. Fora pyramidal efflux distribution, flux from the origin is uni-formly collected and evaluated over an area of the receiver thatis a rectangle on a plane norm

29、al to the beam. A pyramidalconfiguration can be used to subtend a small angle in the planeof incidence, to enhance angular selectivity, but have a largeenough solid angle to provide adequate flux for reliablemeasurements.Auniplanar configuration with pyramidal influxand efflux distributions is illus

30、trated in Fig. 3. To simplify thefigure, only one receiver is shown and the angles and areshown for the receiver, but not for the illuminator.FIG. 1 Uniplanar ConfigurationE2175 01 (2013)26.1.4 In an annular configuration, the incident beam uni-formly fills the space between two right-circular cones

31、, withtheir axes on the normal and apices at the origin. An annularconfiguration can be used to provide a flux distribution with asmall range of anormal angles, to enhance anormal angularselectivity, but of large enough solid angle to provide adequateflux for reliable measurements. The nominal angle

32、 of anannular distribution is the average of the half-angles of the twodefining cones. For multiangle spectrophotometry, provisionmust be made for several annular distributions with differentnominal angles. The efflux distribution is a conical distributionwith its axis on the normal and its apex at

33、the origin.6.1.5 A circumferential configuration approximates an an-nular configuration, except that flux incident on the origincomes from a ring of discrete directional illuminators, allhaving their axes at the same anormal angle, but arrayed atvarious azimuthal angles. The nominal angle of inciden

34、ce ismeasured from the normal to the axes of the illuminators. Formultiangle spectrophotometry, provision must be made forilluminators at several different nominal angles. A circumfer-ential configuration with three illuminators is illustrated in Fig.4. To simplify the figure, the angles i, i, and i

35、are shown forthe first illuminator only.6.1.5.1 The discrete illuminators shall all have the samenominal angle of incidence, for a given measurement.6.1.6 In a diffuse configuration, the incident flux is diffuse.Ideally, the illuminator illuminates the sampling aperture at allangles within the hemis

36、phere on the -z side of the referenceplane, except those directions occupied by receivers. The useof an integrating sphere to produce uniform diffuse illumina-tion requires non-selective diffusing baffles to obscure theentrance port and the area on the sphere wall at which the fluxentering the spher

37、e is first reflected. When diffuse illuminationis used, the receivers are all in one plane defined by the normaland having an arbitrarily designated x-axis. The positions ofthe receivers are specified by anormal angles.6.2 Given a geometric configuration, the reverse geometryis considered equivalent

38、, if all other components of theinstrument design are equivalent.7. Nominal Geometric Specifications7.1 Angles for these specifications are customarily given indegrees.7.2 Uniplanar Geometry:7.2.1 The direction of a conical distribution is specified bythe angle subtended at the origin from the norma

39、l to the axisof the distribution or the angle subtended at the origin fromthe specular direction to the axis of the distribution. The extentof a conical distribution is specified by the angle subtendedFIG. 2 Uniplanar Configuration with Conical Influx and Efflux DistributionsFIG. 3 Uniplanar Configu

40、ration with Pyramidal Influx and Efflux DistributionsE2175 01 (2013)3at the origin by the radius of the circular distribution at theilluminator or receiver, with subscripts i and r indicatingilluminator and receiver, respectively. (See Fig. 2.) When morethan one illuminator or receiver is involved,

41、they are distin-guished by alphabetic subscripts a, b, c, etc., the half-anglesbeing given symbols of the form ia, ib, ic, and ra, rb, rc .7.2.2 Apyramidal distribution is specified by angles and ,where is the angle subtended at the origin from the centralaxis of the distribution to the edge, measur

42、ed in the directionnormal to the plane of incidence, and is the angle subtendedat the origin from the central axis of the distribution to theedge, measured in the plane of incidence. Subscript i and rdistinguish half-angles for the illuminator and receiver, respec-tively. Letter subscripts are added

43、 to identify multipledistributions, as in the case of circular conical distributions.(See Fig. 3.)7.3 An annular distribution is specified by a half-angle i1orr1for the smaller of the two cones limiting the annulus and i2or r2for the larger of the two. Subscripts a,b,c, etc. are usedto distinguish m

44、ultiple distributions, as in the case of conicaldistributions, for example, i1c. The nominal angle of incidenceor angle of reflection is given the same symbol without the 1 or2, for example ic. (See Fig. 4.)7.4 A circumferential distribution is specified by the anor-mal angle of the axes of the disc

45、rete illuminators, the conicalor pyramidal description of the discrete illuminators, and theazimuthal positions of their axes with respect to some identi-fied direction, considered the x direction.7.5 A diffuse distribution is specified by specifyingdirections, if any, from which illumination is exc

46、luded, otherthan the obvious directions of receivers and necessary baffles.Excluded directions are specified in the same way as conical orpyramidal influx or efflux distributions.8. Angular Selectivity8.1 Angular selectivity is the degree to which the measuredspectral quantity approaches the ideal v

47、alue for the nominalangular geometry. Precise characterization of the effectiveangular “slit-width” of the measurement system can bedifficult, but the fraction of the angular illumination distribu-tion and the angular sensitivity distribution within specifiedangles can be determined by practical mea

48、ns.8.2 Ideally, flux incident on the origin should come from thenominal direction specified for the measurement. At leastE% of the incident flux shall come from angles within 1degrees of the nominal direction. All of the incident flux shallcome from angles within 2degrees of the nominal direction.8.

49、3 Ideally, the sensitivity of a receiver should be limited tothe nominal direction. A fraction S% of the angular sensi-tivity distribution shall be within 3degrees of the nominaldirection. All of the angular sensitivity distribution shall bewithin 4degrees of the nominal direction.9. Tolerances9.1 The objective is to have the sampling aperture uniformlyilluminated. Tolerances are specified for the departure fromuniformity of the illuminance. The nominal specified angularextents of influx and efflux distributions should not be confus

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