



颜色系统标准相关标准参考信息
ASTM E308-22 使用CIE系统计算物体颜色的标准实施规程
简介:
信息:ICS:17.180.20 CCS: 发布:2022-08-01 实施:
ANSI/CEA/CEDIA 863-B-2011 家庭影院系统连接器颜色区分标准
简介:This standard defines the colors for marking connections commonly used for electronic devices in a home theater system. This standard adds continuity to installation information, and ensures consistency of information to installers.
信息:ICS:01.070;33.160.01 CCS:M61 发布:2011 实施:
ASTM D1535-00 用Munsell系统指定颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2001-06-10 实施:
ASTM E1360-05(2019) 用美国光学学会统一色标系统规定颜色的标准实施规程
简介:
信息:ICS:17.180.20 CCS: 发布:2019-11-01 实施:
ASTM E1360-05(2010) 用美国光学学会统一色标系统规定颜色的标准实施规程
简介:
信息:ICS:17.180.20 CCS: 发布:2010-07-01 实施:
ASTM D1535-97 用Munsell系统指定颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2001-06-10 实施:
ASTM E308-18 使用CIE系统计算物体颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2018-06-01 实施:
ASTM E308-08 使用CIE系统计算物体颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2008-12-01 实施:
ASTM E1360-90(2000)e1 用美国光学学会统一色标系统规定颜色的标准实施规程
简介:
信息:ICS:17.180.20 CCS: 发布:2000-07-10 实施:
ASTM D1535-14(2018) 用Munsell系统指定颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2018-05-01 实施:
ASTM D1535-08 用Munsell系统指定颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2008-01-01 实施:
ASTM E1541-98 用彩色曲线系统指定和匹配颜色的标准实施规程
简介:
信息:ICS: CCS: 发布:1998-12-10 实施:
ASTM E308-17 使用CIE系统计算物体颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2017-05-01 实施:
ASTM D1535-08e1 用Munsell系统指定颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2008-01-01 实施:
ASTM F974-96(2001) 黑白输出时静电复印系统颜色响应测定的标准实施规程
简介:
信息:ICS:37.100.10 CCS: 发布:1996-06-10 实施:
KS A 0061-2015 依照XYZ色度坐标(国际照明委员会CIE1931标准色度系统)和X10.Y10.Z10色度坐标(CIE 1964补充标准色度系统)的颜色表示法
简介:
信息:ICS:17.180.20;91.160.00 CCS:A26 发布:2015-06-30 实施:
ASTM D1535-2008 用孟塞尔颜色系统规定颜色的标准实施规程
简介:This practice is used by artists, designers, scientists, engineers, and government regulators, to specify an existing or desired color. It is used in the natural sciences to record the colors of specimens, or identify specimens, such as human complexion, flowers, foliage, soils, and minerals. It is used to specify colors for commerce and for control of color-production processes, when instrumental color measurement is not economical. The Munsell system is widely used for color tolerancing, even when instrumentation is employed (see Practice D 3134). It is common practice to have color chips made to illustrate an aim color and the just tolerable deviations from that color in hue, value, and chroma, such a set of chips being called a Color Tolerance Set. A color tolerance set exhibits the aim color and color tolerances so that everyone involved in the selection, production, and acceptance of the color can directly perceive the intent of the specification, before bidding to supply the color or starting production. A color tolerance set may be measured to establish instrumental tolerances. Without extensive experience, it may be impossible to visualize the meaning of numbers resulting from color measurement, but by this practice, the numbers can be translated to the Munsell color-order system, which is exemplified by colored chips for visual examination. This color-order system is the basis of the ISCC-NBS Method of Designating Colors and a Dictionary of Color Names, as well as the Universal Color Language, which associates color names, in the English language, with Munsell notations (3).1.1 This practice provides a means of specifying the colors of objects in terms of the Munsell color order system, a system based on the color-perception attributes hue, lightness, and chroma. The practice is limited to opaque objects, such as painted surfaces viewed in daylight by an observer having normal color vision. This practice provides a simple visual method as an alternative to the more precise and more complex method based on spectrophotometry and the CIE system (see Practices E 308 and E 1164). Provision is made for conversion of CIE data to Munsell notation. 1.2 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
信息:ICS:17.180.20 (Colours and measurement of light); 87.0 CCS:A26 发布:2008 实施:
ASTM F974-96 黑白输出时静电复印系统颜色响应测定的标准实施规程
简介:
信息:ICS: CCS: 发布:1996-06-10 实施:
KS A 0061-2015(2020) 规格颜色根据CIE 1931标准色度系统及CIE 1964补充标准色度系统的
简介:
信息:ICS: CCS: 发布:2015-06-30 实施:
ASTM D1535-07 用Munsell系统指定颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2007-07-01 实施:
JIS Z8701-1995 颜色规格.CIB1931标准颜色系统和CIE1964标准补充件颜色系统
简介:
信息:ICS:17.180.20 CCS:A26 发布:1995-03-01 实施:1995-03-01
ASTM E1360-05(2015) 用美国光学学会统一色标系统规定颜色的标准实施规程
简介:
信息:ICS:17.180.20 CCS: 发布:2015-05-01 实施:
ASTM D1535-2007 用孟塞尔颜色系统规定颜色的标准实施规程
简介:This practice is used by artists, designers, scientists, engineers, and government regulators, to specify an existing or desired color. It is used in the natural sciences to record the colors of specimens, or identify specimens, such as human complexion, flowers, foliage, soils, and minerals. It is used to specify colors for commerce and for control of color-production processes, when instrumental color measurement is not economical. The Munsell system is widely used for color tolerancing, even when instrumentation is employed (see Practice D 3134). It is common practice to have color chips made to illustrate an aim color and the just tolerable deviations from that color in hue, value, and chroma, such a set of chips being called a Color Tolerance Set. A color tolerance set exhibits the aim color and color tolerances so that everyone involved in the selection, production, and acceptance of the color can directly perceive the intent of the specification, before bidding to supply the color or starting production. A color tolerance set may be measured to establish instrumental tolerances. Without extensive experience, it may be impossible to visualize the meaning of numbers resulting from color measurement, but by this practice, the numbers can be translated to the Munsell color-order system, which is exemplified by colored chips for visual examination. This color-order system is the basis of the ISCC-NBS Method of Designating Colors and a Dictionary of Color Names, as well as the Universal Color Language, which associates color names, in the English language, with Munsell notations (3).1.1 This practice provides a means of specifying the colors of objects in terms of the Munsell color order system, a system based on the color-perception attributes hue, lightness, and chroma. The practice is limited to opaque objects, such as painted surfaces viewed in daylight by an observer having normal color vision. This practice provides a simple visual method as an alternative to the more precise and more complex method based on spectrophotometry and the CIE system (see Practices E 308 and E 1164). Provision is made for conversion of CIE data to Munsell notation.This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
信息:ICS:17.180.20 (Colours and measurement of light); 87.0 CCS:G51 发布:2007 实施:
ASTM D1535-89 用孟塞尔系统规定颜色的标准试验方法
简介:
信息:ICS:17.180.20 CCS: 发布: 实施:
ASTM E308-15 使用CIE系统计算物体颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2015-04-01 实施:
ASTM E308-06 使用CIE系统计算物体颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2006-12-01 实施:
ASTM D1535-68 用孟塞尔系统规定颜色的标准方法
简介:
信息:ICS: CCS: 发布: 实施:
ASTM E2970-2015 采用自然色彩系统 (NCS) 规定颜色的标准实施规程
简介:5.1x00a0;The Natural Colour System is a color notation system that builds on how a human being sees color. An NCS notation represents a specific color percept and describes the color as perceived; it is not dependent on limitations caused by pigments, light rays or nerve signals that have given rise to this perception. The NCS system is used internationally in such fields as architecture, corporate identity, cosmetics, education, fashion and textile forecasting and production, interior design and product design. The Natural Colour System describes colors exactly as they are seen. Any of the millions of colors that exist can be defined within the NCS system and given a precise notation. When the NCS system is known, it is possible to judge the attributes of a color by its NCS notation; for example, how much blackness, how much chromaticness, and what hue? This helps to communicate and check specifications and to identify colors. Some examples of the use of NCS are: (1) Architects and designers use the NCS color samples to select colors for all kind of products and materials; (2) They also use the NCS notation to analyze the colors in use in a particular area and to document their specifications; (3) Companies use the NCS color samples as the production standards for their products; (4) Paint manufacturers and other industries use the NCS notation and the NCS color samples to visualize the color of their products to customers, and (5) Companies use the NCS samples as high quality color standards in corporate identity programs and manuals. 1.1x00a0;The Natural Colour System (NCS) (see 1.7) provides a color notation system that can be used to communicate color. This practice introduces the Natural Colour System, its terminology, and conversion to and from CIE tristimulus values. 1.2x00a0;The system described in this standard includes color percepts that appear to belong to the surface of a material, provided the surface is not perceived to be fluorescent or to exhibit directional color effects. 1.3x00a0;The system does not include colors that appear to belong to translucent or luminescent objects (so-called volume colors and luminous colors), nor does it include other visual properties of the surface layer, such as gloss and texture. An NCS notation does not describe the physical or chemical properties of an object. 1.4x00a0;This practice also specifies the conditions for visual or instrumental determination of the NCS notation of a color sample, defines the relationships between psychometrically determined NCS notations and the corresponding CIE color coordinates which are to be used in this context. 1.5x00a0;For the accuracy requirements associated with NCS standards and NCS color samples, the user is referred to Swedish Standard SS 19104. The colored illustrations in this standard shall not be used as standard color samples in any way. Color illustrations that are shown on screen or in printouts may be signif......
信息:ICS: CCS: 发布:2015 实施:
KS A 0061-2006 依照国际照明委员会CIE 1931标准色度系统及CIE 1964补充标准色度系统的颜色规范
简介:이 규격은 2도 사이에 기초한 XYZ색 표시계( )(이하 XYZ색 표시계라 한다.) 및 1
信息:ICS:17.180.20 CCS:A26 发布:2006-11-22 实施:2006-11-22
简介: 信息:
ASTM D1535-14 用Munsell系统指定颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2014-11-01 实施:
KS A 0061-2006 依照国际照明委员会CIE 1931标准色度系统及CIE 1964补充标准色度系统的颜色规范
简介:이 규격은 2도 사이에 기초한 XYZ색 표시계( )(이하 XYZ색 표시계라 한다.) 및 1
信息:ICS:17.180.20 CCS:A26 发布:2006-11-22 实施:2006-11-22
简介: 信息:
ASTM E2970-2014 采用自然色彩系统 (NCS) 规定颜色的标准实践规程
简介:5.1x00a0;The Natural Colour System is a color notation system that builds on how a human being sees color. An NCS notation represents a specific color percept and describes the color as perceived; it is not dependent on limitations caused by pigments, light rays or nerve signals that have given rise to this perception. The NCS system is used internationally in such fields as architecture, corporate identity, cosmetics, education, fashion and textile forecasting and production, interior design and product design. The Natural Colour System describes colors exactly as they are seen. Any of the millions of colors that exist can be defined within the NCS system and given a precise notation. When the NCS system is known, it is possible to judge the attributes of a color by its NCS notation; for example, how much blackness, how much chromaticness, and what hue? This helps to communicate and check specifications and to identify colors. Some examples of the use of NCS are: (1) Architects and designers use the NCS color samples to select colors for all kind of products and materials; (2) They also use the NCS notation to analyze the colors in use in a particular area and to document their specifications; (3) Companies use the NCS color samples as the production standards for their products; (4) Paint manufacturers and other industries use the NCS notation and the NCS color samples to visualize the color of their products to customers, and (5) Companies use the NCS samples as high quality color standards in corporate identity programs and manuals. 1.1x00a0;The Natural Colour System (NCS) (see 1.7) provides a color notation system that can be used to communicate color. This practice introduces the Natural Colour System, its terminology, and conversion to and from CIE tristimulus values. 1.2x00a0;The system described in this standard includes color percepts that appear to belong to the surface of a material, provided the surface is not perceived to be fluorescent or to exhibit directional color effects. 1.3x00a0;The system does not include colors that appear to belong to translucent or luminescent objects (so-called volume colors and luminous colors), nor does it include other visual properties of the surface layer, such as gloss and texture. An NCS notation does not describe the physical or chemical properties of an object. 1.4x00a0;This practice also specifies the conditions for visual or instrumental determination of the NCS notation of a color sample, defines the relationships between psychometrically determined NCS notations and the corresponding CIE color coordinates which are to be used in this context. 1.5x00a0;For the accuracy requirements associated with NCS standards and NCS color samples, the user is referred to Swedish Standard SS 01 91 04 (E). 1.6x00a0;The values stated in SI units are to be regarded as standard......
信息:ICS: CCS: 发布:2014 实施:
ASTM D1535-06 用Munsell系统指定颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2006-07-01 实施:
简介: 信息:
ASTM D1535-2014 用孟塞尔颜色系统规定颜色的标准实践规程
简介:4.1x00a0;This practice is used by artists, designers, scientists, engineers, and government regulators, to specify an existing or desired color. It is used in the natural sciences to record the colors of specimens, or identify specimens, such as human complexion, flowers, foliage, soils, and minerals. It is used to specify colors for commerce and for control of color-production processes, when instrumental color measurement is not economical. The Munsell system is widely used for color tolerancing, even when instrumentation is employed (see Practice D3134). It is common practice to have color chips made to illustrate an aim color and the just tolerable deviations from that color in hue, value, and chroma, such a set of chips being called a Color Tolerance Set. A color tolerance set exhibits the aim color and color tolerances so that everyone involved in the selection, production, and acceptance of the color can directly perceive the intent of the specification, before bidding to supply the color or starting production. A color tolerance set may be measured to establish instrumental tolerances. Without extensive experience, it may be impossible to visualize the meaning of numbers resulting from color measurement, but by this practice, the numbers can be translated to the Munsell color-order system, which is exemplified by colored chips for visual examination. This color-order system is the basis of the ISCC-NBS Method of Designating Colors and a Dictionary of Color Names, as well as the Universal Color Language, which associates color names, in the English language, with Munsell notations (3). 1.1x00a0;This practice provides a means of specifying the colors of objects in terms of the Munsell color order system, a system based on the color-perception attributes hue, lightness, and chroma. The practice is limited to opaque objects, such as painted surfaces viewed in daylight by an observer having normal color vision. This practice provides a simple visual method as an alternative to the more precise and more complex method based on spectrophotometry and the CIE system (see Practices E308 and E1164). Provision is made for conversion of CIE data to Munsell notation. 1.2x00a0;This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
信息:ICS:17.180.20;87.040 CCS: 发布:2014 实施:
ASTM F974-06 黑白输出时静电复印系统颜色响应测定的标准实施规程
简介:
信息:ICS:37.100.10 CCS: 发布:2006-06-01 实施:
简介: 信息:
ASTM E308-13 使用CIE系统计算物体颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2013-10-01 实施:
ASTM E308-2006 用CIE系统计算物体颜色的标准实施规程
简介:The CIE colorimetric systems provide numerical specifications that are meant to indicate whether or not pairs of color stimuli match when viewed by a CIE standard observer. The CIE color systems are not intended to provide visually uniform scales of color difference or to describe visually perceived color appearances. This practice provides for the calculation of tristimulus values X, Y, Z and chromaticity coordinates x, y that can be used directly for psychophysical color stimulus specification or that can be transformed to nearly visually uniform color scales, such as CIELAB and CIELUV. Uniform color scales are preferred for research, production control, color-difference calculation, color specification, and setting color tolerances. The appearance of a material or an object is not completely specified by the numerical evaluation of its psychophysical color, because appearance can be influenced by other properties such as gloss or texture.1.1 This practice provides the values and practical computation procedures needed to obtain CIE tristimulus values from spectral reflectance, transmittance, or radiance data for object-color specimens.1.2 Procedures and tables of standard values are given for computing from spectral measurements the CIE tristimulus values X, Y, Z, and chromaticity coordinates x, yfor the CIE 1931 standard observer and X 10, Y10, Z 10 and x10. y10 for the CIE 1964 supplementary standard observer.1.3 Standard values are included for the spectral power of six CIE standard illuminants and three CIE recommended fluorescent illuminants.1.4 Procedures are included for cases in which data are available only in more limited wavelength ranges than those recommended, or for a measurement interval wider than that recommended by the CIE. This practice is applicable to spectral data obtained in accordance with Practice E 1164 with 1-, 5-, 10-, or 20-nm measurement interval.1.5 Procedures are included for cases in which the spectral data are, and those in which they are not, corrected for bandpass dependence. For the uncorrected cases, it is assumed that the spectral bandpass of the instrument used to obtain the data was approximately equal to the measurement interval and was triangular in shape. These choices are believed to correspond to the most widely used industrial practice.1.6 This practice includes procedures for conversion of results to color spaces that are part of the CIE system, such as CIELAB and CIELUV (3). Equations for calculating color differences in these and other systems are given in Practice D 2244.1.7 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use
信息:ICS:17.180.20 (Colours and measurement of light) CCS:A42;A26 发布:2006 实施:
简介: 信息:
ASTM D1535-13 用Munsell系统指定颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2013-01-01 实施:
ASTM E1360-05 用美国光学学会统一色标系统规定颜色的标准实施规程
简介:
信息:ICS:17.180.20 CCS: 发布:2005-06-01 实施:
简介: 信息:
ASTM E308-2013 用CIE系统计算物体颜色的标准实施规程
简介:5.1x00a0;The CIE colorimetric systems provide numerical specifications that are meant to indicate whether or not pairs of color stimuli match when viewed by a CIE standard observer. The CIE color systems are not intended to provide visually uniform scales of color difference or to describe visually perceived color appearances. 5.2x00a0;This practice provides for the calculation of tristimulus values X, Y, Z and chromaticity coordinates x, y that can be used directly for psychophysical color stimulus specification or that can be transformed to nearly visually uniform color scales, such as CIELAB and CIELUV. Uniform color scales are preferred for research, production control, color-difference calculation, color specification, and setting color tolerances. The appearance of a material or an object is not completely specified by the numerical evaluation of its psychophysical color, because appearance can be influenced by other properties such as gloss or texture. 1.1x00a0;This practice provides the values and practical computation procedures needed to obtain CIE tristimulus values from spectral reflectance, transmittance, or radiance data for object-color specimens. 1.2x00a0;Procedures and tables of standard values are given for computing from spectral measurements the CIE tristimulus values X, Y, Z, and chromaticity coordinates x, y for the CIE 1931 standard observer and X10, Y10, Z10 and x10. y10 for the CIE 1964 supplementary standard observer. 1.3x00a0;Standard values are included for the spectral power of six CIE standard illuminants and three CIE recommended fluorescent illuminants. 1.4x00a0;Procedures are included for cases in which data are available only in more limited wavelength ranges than those recommended, or for a measurement interval wider than that recommended by the CIE. This practice is applicable to spectral data obtained in accordance with Practice E1164 with 1-, 5-, 10-, or 20-nm measurement interval. 1.5x00a0;Procedures are included for cases in which the spectral data are, and those in which they are not, corrected for bandpass dependence. For the uncorrected cases, it is assumed that the spectral bandpass of the instrument used to obtain the data was approximately equal to the measurement interval and was triangular in shape. These choices are believed to correspond to the most widely used industrial practice. 1.6x00a0;This practice includes procedures for conversion of results to color spaces that are part of the CIE system, such as CIELAB and CIELUV (3). Equations for calculating color differences in these and other systems are given in Practice D2244. 1.7x00a0;The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.8x00a0;This standard does not purport to addres......
信息:ICS:17.180.20 (Colours and measurement of light) CCS: 发布:2013 实施:
ASTM E1360-2005 用美国光学学会均匀色标系统规定颜色的标准实施规程
简介:1.1 This practice provides a means for specifying the colors of objects in terms of the Optical Society of America Uniform Color Scales. Both computational and visual methods are included. The practice is limited to opaque objects, such as painted surfaces, viewed in daylight by an observer having normal color vision.1.2 This practice does not cover the preparation of specimens. If the preparation of specimens is required in conjunction with this practice, a mutually agreed upon procedure shall be established.
信息:ICS:17.180.20 (Colours and measurement of light) CCS:A26 发布:2005 实施:
简介: 信息:
ASTM D1535-12a 用Munsell系统指定颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2012-07-15 实施:
ASTM E1360-2005(2010) 用美国光学学会均匀色标系统规定颜色的标准实施规程
简介:1.1 This practice provides a means for specifying the colors of objects in terms of the Optical Society of America Uniform Color Scales. Both computational and visual methods are included. The practice is limited to opaque objects, such as painted surfaces, viewed in daylight by an observer having normal color vision.1.2 This practice does not cover the preparation of specimens. If the preparation of specimens is required in conjunction with this practice, a mutually agreed upon procedure shall be established.
信息:ICS:17.180.20 CCS:A26 发布:2005 实施:
简介: 信息:
ASTM E308-12 使用CIE系统计算物体颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2012-07-01 实施:
ASTM E308-01 使用CIE系统计算物体颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2001-08-10 实施:
简介: 信息:
ASTM D1535-12 用Munsell系统指定颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2012-02-01 实施:
ASTM E308-99 使用CIE系统计算物体颜色的标准实践
简介:
信息:ICS:17.180.20 CCS: 发布:2001-08-10 实施:
简介: 信息:
ASTM E308-2012 用CIE系统计算物体颜色的标准实施规程
简介:5. Significance and UseTop Bottom 5.1 The CIE colorimetric systems provide numerical specifications that are meant to indicate whether or not pairs of color stimuli match when viewed by a CIE standard observer. The CIE color systems are not intended to provide visually uniform scales of color difference or to describe visually perceived color appearances. 5.2 This practice provides for the calculation of tristimulus values X, Y, Z and chromaticity coordinates x, y that can be used directly for psychophysical color stimulus specification or that can be transformed to nearly visually uniform color scales, such as CIELAB and CIELUV. Uniform color scales are preferred for research, production control, color-difference calculation, color specification, and setting color tolerances. The appearance of a material or an object is not completely specified by the numerical evaluation of its psychophysical color, because appearance can be influenced by other properties such as gloss or texture. 1.1 This practice provides the values and practical computation procedures needed to obtain CIE tristimulus values from spectral reflectance, transmittance, or radiance data for object-color specimens. 1.2 Procedures and tables of standard values are given for computing from spectral measurements the CIE tristimulus values X, Y, Z, and chromaticity coordinates x, y for the CIE 1931 standard observer and X10, Y10, Z10 and x10. y10 for the CIE 1964 supplementary standard observer. 1.3 Standard values are included for the spectral power of six CIE standard illuminants and three CIE recommended fluorescent illuminants. 1.4 Procedures are included for cases in which data are available only in more limited wavelength ranges than those recommended, or for a measurement interval wider than that recommended by the CIE. This practice is applicable to spectral data obtained in accordance with Practice E1164 with 1-, 5-, 10-, or 20-nm measurement interval. 1.5 Procedures are included for cases in which the spectral data are, and those in which they are not, corrected for bandpass dependence. For the uncorrected cases, it is assumed that the spectral bandpass of the instrument used to obtain the data was approximately equal to the measurement interval and was triangular in shape. These choices are believed to correspond to the most widely used industrial practice.
信息:ICS:17.180.20 (Colours and measurement of light) CCS: 发布:2012 实施:
ASTM D1535-01 用Munsell系统指定颜色的标准实践
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信息:ICS:17.180.20 CCS: 发布:2001-06-10 实施:
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