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本文(ASTM E1767-2004 Standard Practice for Specifying the Geometries of Observation and Measurement to Characterize the Appearance of Materials《材料外观特性的观察和测量的几何规定用规程》.pdf)为本站会员(赵齐羽)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 E1767-2004 Standard Practice for Specifying the Geometries of Observation and Measurement to Characterize the Appearance of Materials《材料外观特性的观察和测量的几何规定用规程》.pdf

1、Designation: E 1767 04Standard Practice forSpecifying the Geometries of Observation and Measurementto Characterize the Appearance of Materials1This standard is issued under the fixed designation E 1767; the number immediately following the designation indicates the year oforiginal adoption or, in th

2、e 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.INTRODUCTIONThe appearance of objects depends on how they are illuminated and viewed. When measur

3、ementsare made to characterize appearance attributes such as color or gloss, the measured values depend onthe geometry of the illumination and the instrumentation receiving light from the specimen. Thispractice for specifying the geometry in such applications is largely based on an international sta

4、ndardISO 5/1, dealing with the precise measurement of optical density in photographic science, based onan earlier American National Standard.2,31. Scope1.1 This practice describes the geometry of illuminating andviewing specimens and the corresponding geometry of opticalmeasurements to characterize

5、the appearance of materials. Itestablishes terms, symbols, a coordinate system, and functionalnotation to describe the geometric orientation of a specimen,the geometry of the illumination (or optical irradiation) of aspecimen, and the geometry of collection of flux reflected ortransmitted by the spe

6、cimen, by a measurement standard, or bythe open sampling aperture.1.2 Optical measurements to characterize the appearance ofretroreflective materials are of such a special nature that theyare treated in other ASTM standards and are excluded from thescope of this practice.1.3 The measurement of trans

7、mitted or reflected light fromareas less than 0.5 mm in diameter may be affected by opticalcoherence, so measurements on such small areas are excludedfrom consideration in this practice, although the basic conceptsdescribed in this practice have been adopted in that field ofmeasurement.1.4 The speci

8、fication of a method of measuring the reflect-ing or transmitting properties of specimens, for the purpose ofcharacterizing appearance, is incomplete without a full descrip-tion of the spectral nature of the system, but spectral conditionsare not within the scope of this practice. The use of functio

9、nalnotation to specify spectral conditions is described in ISO 5/1.2. Referenced Documents2.1 ASTM Standards:4E 284 Terminology of Appearance2.2 Other Standard:ISO 5/1 PhotographyDensity MeasurementsPart 1:Terms, Symbols and Notations53. Terminology3.1 Definitions:3.1.1 The terminology used in this

10、practice is in accordancewith Terminology E 284.3.2 Definitions of Terms Specific to This Standard:3.2.1 anormal angle, nan angle measured from the nor-mal, toward the reference plane, to the central axis of adistribution, which may be an angular distribution of flux in anincident beam or distributi

11、on of sensitivity of a receiver.3.2.2 aspecular angle, nthe angle subtended at the originby the specular axis and the axis of the receiver, the positivedirection being away from the specular axis.3.2.3 aspecular azimuthal angle, nthe angle subtended, atthe specular axis in a plane normal to the spec

12、ular axis, by theprojection of the axis of the receiver and the projection of thex-axis on that plane, measured from the projection of the x-axisin a right-handed sense with respect to the specular axis.3.2.4 efflux, nradiant flux reflected by a specimen orreflection standard, in the case of reflect

13、ion observations ormeasurements, or transmitted by a specimen or open sampling1This practice is under the jurisdiction of ASTM Committee E12 on Color andAppearance and is the direct responsibility of Subcommittee E12.03 on Geometry.Current edition approved May 1, 2004. Published July 2004. Originall

14、y approvedin 1995. Discontinued December 2003 and reinstated in 2004 as E 1767 04.2ISO1/5 Photograhpy Density Measurements Part 1: Terms, symbols, andnotations.3ANSI PH2.361974 American National Standards terms, symbols, and notationfor optical transmission and reflection measurements.4For reference

15、d 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.5Available from American National Standards Institute (ANSI), 25 W. 43rd St

16、.,4th Floor, New York, NY 10036.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.aperture, in the case of transmission observations or measure-ments, and sensed by the receiver.3.2.5 efflux, adjassociated with the radiant flux reflect

17、edby a specimen or reflection standard, in the case of reflectionobservations or measurements, or transmitted by a specimen oropen sampling aperture, in the case of transmission observa-tions or measurements, and sensed by the receiver.3.2.6 efflux region, nregion in the reference plane fromwhich fl

18、ux is sensed by the observer.3.2.7 influx, nradiant flux directed toward a specimen, areflection standard, or open sampling aperture.3.2.8 influx, adjassociated with radiant flux directed to-ward a specimen, a reflection standard, or open samplingaperture.3.2.9 influx region, nregion in the referenc

19、e plane onwhich flux is incident.3.2.10 optical modulation, na ratio indicating the magni-tude of the propagation by a specimen of radiant flux from aspecified illuminator or irradiator to a specified receiver, ageneral term for reflectance, transmittance, reflectance factor,transmittance factor, or

20、 radiance factor.3.2.11 plane of incidence, nthe plane containing the axisof the incident beam and the normal to the reference plane.3.2.11.1 DiscussionThis plane is not defined if the axis ofthe incident beam is normal to the reference plane.3.2.12 reference plane, nthe plane in which the surface o

21、fa plane specimen is placed for observation or measurement, orin the case of a nonplanar specimen, the plane with respect towhich the measurement is made.3.2.13 sampling aperture, nthe region in the referenceplane on which a measurement is made, the intersection of theinflux region and the efflux re

22、gion.3.2.14 specular axis, nthe ray resulting from specularreflection at an ideal plane mirror in the reference plane, of theray at the geometric axis of the incident beam.3.2.14.1 DiscussionThis term is applied to an incidentbeam subtending a small angle at the origin, not to diffuse orannular illu

23、minators.3.2.15 specular direction, nthe direction of the specularaxis, the positive direction being away from the origin.3.2.16 uniplanar geometry, ngeometry in which the re-ceiver is in the plane of incidence.3.3 Symbols:de = general symbol for diffuse geometry with specularcomponent excluded.di =

24、 general symbol for diffuse geometry with specularcomponent included.E = identifies the direction of the axis of an effluxdistribution on a diagram.g = general symbol, in functional notation, for effluxgeometry.G = general symbol, in functional notation, for influxgeometry.i = subscript for incident

25、.I = identifies the direction of the axis of an influxdistribution on a diagram.m = subscript for half cone angle subtended by theentrance pupil of a test photometer.M = optical modulation.n = subscript for half cone angle subtended by a testsource.N = identifies the direction of the normal to the r

26、eferenceplane on a diagram.o = point of origin of a rectangular coordinate system, inthe reference plane, at the center or centroid of thesampling aperture.r = subscript for reflected.S = identifies the specular direction on a diagram.t = subscript for transmitted.x = distance from the origin, along

27、 the x-axis, in thereference plane, passing through point o.y = distance from the origin, along the y-axis, in thereference plane, passing through point o, and nor-mal to the x-axis.z = distance from the origin, along the z-axis, normal tothe reference plane, passing through point o, andhaving its p

28、ositive direction in the direction of thevector component of incident flux normal to thereference plane.a = aspecular angle.b = aspecular azimuthal angle.d = in a pyramidal distribution, the half-angle measuredin the direction normal to the plane of incidence.e = in a pyramidal distribution, the hal

29、f-angle measuredin the plane of incidence.h = azimuthal angle, measured in the reference plane,from the positive x-axis, in the direction of thepositive y-axis.u = anormal angle.k = half cone angle of a conical flux distribution.F = radiant flux45a = general symbol for 45 annular geometry45c = gener

30、al symbol for 45 circumferential geometry4. Summary of Practice4.1 This practice provides a method of specifying thegeometry of illuminating and viewing a material or thegeometry of instrumentation for measuring an attribute ofappearance. In general, for measured values to correlate wellwith appeara

31、nce, the geometric conditions of measurementmust simulate the conditions of viewing.5. Significance and Use5.1 This practice is for the use of manufacturers and users ofequipment for visual appraisal or measurement of appearance,those writing standards related to such equipment, and otherswho wish t

32、o specify precisely conditions of viewing ormeasuring attributes of appearance. The use of this practicemakes such specifications concise and unambiguous. Thefunctional notation facilitates direct comparisons of the geo-metric specifications of viewing situations and measuringinstruments.6. Coordina

33、te System6.1 The standard coordinate system is illustrated in Fig. 1. Itis a left-handed rectangular coordinate system, following theE1767042usual optical convention of incident and transmitted flux in thepositive direction and the usual convention for the orientationof x and y for the reflection ca

34、se. The coordinates are related toa reference plane in which the first surface of the specimen isplaced for observation or measurement. The origin is in thereference plane at the center or centroid of the samplingaperture.6.2 Instruments are usually designed to minimize the varia-tion of the product

35、 of illumination and receiver sensitivity, as afunction of the azimuthal direction. That practice minimizesthe variation in modulation as the specimen is rotated in itsown plane. Even in instruments with an integrating sphere,residual variation of the product, known as “directionality,” cancause var

36、iations in measurements of textured specimens ro-tated in their plane. To minimize variation among routineproduct measurements due to this effect, the “warp,” “grain,”or other “machine direction” of specimens must be consistentlyoriented with respect to the x-axis, which is directed accordingto the

37、following rules, intended to place the positive x-axis inthe azimuthal direction for which the product of illuminationand receiver sensitivity is a minimum.6.2.1 For an integrating-sphere instrument with diffuse illu-mination, the positive x-axis is directed toward the projectionof the center of the

38、 exit port on the reference plane.6.2.2 For an integrating-sphere instrument with diffuse col-lection, the positive x-axis is directed toward the projection ofthe center of the entrance port on the reference plane.6.2.3 For an instrument with annular (circumferential)45:0 or 0:45 geometry, the posit

39、ive x-axis is in theazimuthal direction for which the product of illumination andreceiver sensitivity is a minimum.6.2.4 For an instrument with highly directional illumination,off the normal, such as is used in the measurement of gloss orgoniochromatism, the positive x-axis is directed along theproj

40、ection of the specular direction on the reference plane.6.3 Anormal angles are specified with respect to rayspassing through the origin. (In a later section of this standard,allowance is made for the size of the sampling aperture by thetolerances on the influx and efflux angles.) Anormal angles ofin

41、cident and reflected rays are measured from the negativez-axis. Anormal angles of transmitted rays are measured fromthe positive z-axis.6.4 The azimuthal angle of a ray is the angle h, measured inthe reference plane from the positive x-axis in the direction ofthe positive y-axis, to the projection o

42、f the ray on the referenceplane. The direction of a ray is given by u and h, in that order.Angle h is less than 360 and u is 180 or less, and usually lessthan 90.6.5 In gonioradiometry and goniospectrometry, the effluxangle uror utmay be measured from the normal, but forreflection measurements to ch

43、aracterize goniochromatism, it isoften measured from the specular axis. The aspecular angle ais the angle subtended at the origin by the specular axis and theaxis of the receiver. In most gonioradiometric measurements,the axis of the receiver is in the plane of incidence and theaspecular angle is me

44、asured in that plane. In that case, thepositive direction of a is from the specular direction toward thenormal.6.6 If the axis of the receiver is not in the plane of incidence,the direction of the axis may be described in terms of anormaland azimuthal angles, as defined in 6.5, but an aspecularazimu

45、thal angle b may be useful. The aspecular azimuthalangle is a special kind of azimuthal angle, measured in a planenormal to the specular axis, with positive direction in theright-handed sense. (With the right thumb along the specularaxis and directed away from the origin, the right hand fingerspoint

46、 in the positive direction of b.) See Fig. 2. The aspecularazimuthal angle is measured from the projection of the x-axison the plane normal to the specular axis, to the direction of theaxis of the receiver. As the angle of incidence approaches zeroFIG. 1 Coordinate System for Describing the Geometri

47、c Factors Affecting Transmission and Reflection MeasuresE1767043(near normal to the specimen), the aspecular azimuthal angleapproaches the azimuthal angle. Aspecular angular excursionsof the receiver may be completely described in terms of thecomponents a and b. When a and b are used to define thedi

48、rection of the receiver, a is always positive.6.7 Subscripts i, r, and t are used to identify fluxes or theangles describing them as incident, reflected, or transmitted,respectively.6.8 If specimen thickness must be taken into account, effluxangles may be described relative to a secondary origin o8d

49、isplaced in the positive z direction by the thickness h of thespecimen. Then x8 = x, y8 = y, and z8 = z-h.7. Conical Description7.1 Given this standard coordinate system, any distributionof the influx and efflux may be described, but the descriptionmay be very complicated. Fortunately, most such distributionsin instruments used to measure appearance can be approxi-mated by uniform pencils bounded by right circular cones. Theeye, the receiver in the case of visual observation, may bedescribed in this way. In such cases, the description can berelativ

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