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本文(ASTM F1945-2005 Standard Practice for Determining the Lightfastness of Ink Jet Prints Exposed to Indoor Fluorescent Lighting《测定暴露于室内荧光照明下的喷墨打印品的耐光性的标准规程》.pdf)为本站会员(sumcourage256)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 F1945-2005 Standard Practice for Determining the Lightfastness of Ink Jet Prints Exposed to Indoor Fluorescent Lighting《测定暴露于室内荧光照明下的喷墨打印品的耐光性的标准规程》.pdf

1、Designation: F 1945 05Standard Practice forDetermining the Lightfastness of Ink Jet Prints Exposed toIndoor Fluorescent Lighting1This standard is issued under the fixed designation F 1945; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revi

2、sion, 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 practice covers an accelerated procedure intendedto determine the lightfastness of ink jet pri

3、nts in officeenvironments where overhead fluorescent light is used forillumination.1.2 This practice describes two methods based on Method IIand Method III from D 4674, in which specimens are exposedto cool white VHO fluorescent lamps (Method II) and coolwhite fluorescent lamps (Method III) under co

4、ntrolled environ-mental conditions.1.3 Two criteria are used to determine relative lightfastness:color change and optical density.1.4 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 establis

5、h appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use. Specific precau-tionary statements are given in Section 8.1.5 There is no known ISO equivalent standard.2. Referenced Documents2.1 ASTM Standards:2D 1729 Practice for Visual Appraisal

6、of Colors and ColorDifferences of Diffusely Illuminated Opaque MaterialsD 2244 Practice for Calculation of Color Tolerances andColor Differences from Instrumentally Measured ColorCoordinatesD 3424 Test Methods for Evaluating the Relative the Light-fastness and Weatherability of Printed MatterD 4674

7、Practice for Accelerated Testing for Color Stabilityof Plastics Exposed to Indoor Office EnvironmentsG113 Terminology Relating to Natural and ArtificialWeathering Tests of Nonmetallic MaterialsG 141 Guide forAddressing Variability in Exposure Testingon Nonmetallic MaterialsG 151 Practice for Exposin

8、g Nonmetallic Materials in Ac-celerated Test Devices That Use Laboratory Light SourcesG 154 Practice for Operating Fluorescent Light Apparatusfor UV Exposure of Nonmetallic Materials2.2 ANSI Standard3:ANSI/NAPM IT9.91990 Stability of Color PhotographicImagesMethods for MeasuringIT2.171995AnnexA1 Den

9、sity MeasurementsPart 4: Geo-metric Conditions for Reflection Density, Backing Mate-rial3. Terminology3.1 Definitions:3.1.1 The definitions given in Terminology G113are appli-cable to this practice.3.1.2 ink jet mediasubstrates used by ink jet printers toreceive inks. The substrate may be paper, pla

10、stic, canvas,fabric, or other ink receptive material. The substrate may, ormay not be, coated with one or more ink receptive layers.4. Summary of Practice4.1 Printed ink jet media are exposed to radiant energy fromcool white fluorescent lamps. The exposure duration is basedon radiant exposure in kJ/

11、m2monitored either (1) in the UVregion between 250 and 400 nm (Method II of Test MethodD 4674) or (2) in the UV/visible region between 300 and 800nm (Method III of Test Method D 4674). Radiant exposure isthe product of irradiance W/m2 and the exposure time, inhours.4.2 The duration of the exposure m

12、ay vary widely depend-ing on the lightfastness of the ink/media and whether MethodII or Method III from Test Method D 4674 was used.4.3 During the course of the exposure, the color changes andoptical densities of the printed samples are periodically evalu-ated. The color change after each period of

13、exposure isdetermined by comparison of the exposed specimens to unex-posed specimens, using either visual or instrumental proce-dures, and reported as color difference, DE. The change in1This practice is under the jurisdiction of ASTM Committee F05 on BusinessImaging Products and is the direct respo

14、nsibility of Subcommittee F05.07 on Ink JetImaging Products.Current edition approved Jan. 1, 2005. Published January 2005.Originally approved in 1998. Last previous edition approved in 1998 asF 1945 98.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Serv

15、ice at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3American National Standards Institute, 25 West 43rd Street, 4th Floor, NewYork, 10036.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West

16、Conshohocken, PA 19428-2959, United States.optical density is determined instrumentally and reported aspercent retained density. Results are compared with changes ina control specimen exposed at the same time.4.4 Exposures are conducted for a duration agreed upon byall interested parties. Test and c

17、ontrol specimens are periodi-cally removed for color measurement and optical density.5. Significance and Use5.1 Lightfastness of printed ink jet media for specifiedperiods of time is pertinent to the end use of these materials.Since the ability of ink jet prints to withstand color changes isa functi

18、on of the spectral power distribution of the light sourceto which it is exposed, it is important that lightfastness beassessed under the conditions appropriate to the end useapplication. While ink jet prints may be handled and displayedunder a variety of conditions, this practice is intended toprodu

19、ce the color changes that may occur in ink jet prints uponexposure to irradiation from office lighting where overheadfluorescent light is used for illumination by simulating theseconditions.5.2 The accelerated procedures covered in this practice areintended to provide a means for the rapid evaluatio

20、n of therelative lightfastness of a series of prints or of a print of interestin comparison to the performance of controls with knownlightfastness exposed simultaneously under laboratory condi-tions. Test results are useful for specification acceptancebetween producer and user, for quality control,

21、and for researchand product development.NOTE 1Refer to Practice G 151 for full cautionary guidance appli-cable to all laboratory weathering devices. Additional information onsources of variability and on strategies for addressing variability by designand data analysis of laboratory accelerated expos

22、ure tests is found inGuide G 141.5.3 Variation in results may be expected when operatingconditions are varied within the accepted limits of this practice.For example, differences in the level of irradiance using lampswith the same spectral power distribution can cause significantdifferences in test

23、results. Therefore, no reference to the use ofthis practice should be made unless accompanied by a reportprepared in accordance with Section 12 which specifieswhether Test Method D 4674 Method II or Method III wasused and which describes the specific operating conditionsused.NOTE 2A comparison of th

24、e two listed methods has not beenperformed. Therefore, the two methods cannot be considered to giveequivalent test results unless tests have been carried out to show that thetwo methods provide the same stability rankings, i.e., the same relativestabilities for different ink jet prints. Also, exposu

25、re times for equivalentchanges in color and optical densities by the two methods has not beendetermined.5.4 Reproducibility of test results between laboratories us-ing the same method (e.g., Method II or Method III of TestMethod D 4674) has been shown to be good when the stabilityof materials is eva

26、luated in terms of performance rankingcompared to other materials or to a control. Therefore, expo-sure of a similar material of known performance (a control) atthe same time as the test materials is strongly recommended. Itis recommended that at least three replicates of each materialbe exposed to

27、allow for statistical evaluation of results.5.5 Color changes may not be a linear function of durationof exposure. The preferred method of determining lightfastnessis to expose the prints for a number of intervals and to assessthe exposure duration required to obtain a specific colorchange.6. Interf

28、erences6.1 It is recognized that the rate of photo degradation of inkjet prints will vary significantly due to factors such as initialcolor density, the area printed (solid versus half-tone), thesubstrate, the ink type (dye versus pigment inks), and thecoating type and thickness. Consequently, test

29、results must bedetermined individually for each printed ink jet media.6.2 Variations in exposure time, temperature and humiditymay also affect results.7. Apparatus7.1 Use Fluorescent UV test apparatus that conform to therequirements specified in either Method II of Test MethodD 4674 or in Method III

30、 of Test Method D 4674.7.1.1 For Method III of Test Method D 4674, use a testapparatus that complies with Practice G 154.7.2 The spectral distribution of the cool white lamps shallcomply with the requirements given in Annex A2 of TestMethod D 4674.7.3 Instrument CalibrationTo ensure standardization

31、andaccuracy, the instruments associated with the exposure appa-ratus (for example, timers, thermometers, humidity sensors,UV sensors, and radiometers) require periodic calibration toensure repeatability of test results. Whenever possible, calibra-tion shall be traceable to national or international

32、standards.Calibration schedule and procedure should be in accordancewith manufacturers instructions.8. Safety Precautions8.1 Follow the safety instructions in accordance with themanufacturers instructions and also described in Test MethodD 4674, Section 7, Hazards.9. Test Specimen9.1 The substrate,

33、method of printing, ink, ink laydown, andhandling of printed specimens shall be consistent with theanticipated end use of the specimens.9.2 The test image may be generated with personal com-puter word processing, drawing/graphics, or page layout soft-ware, saved as a print file for each printer/meth

34、od of printing(contributing its unique ink and ink/receiver interactions thatmay impact on the image light stability), trial-printed, andevaluated for appropriate ink laydown (purity and amount) andease of printing and testing. Each print file should have itsfilename, type, and version identified in

35、 the image area and aplace for experimental notes (for example, time, printer,environmental conditions, operator). The printer settings and atrial print of each print file version should be archived.9.3 The recommended test image shall consist of a stan-dardized arrangement of color patches printed

36、using print filescontaining the appropriate printer setup specific for eachapplication. This test image shall contain color patches atmaximum print density (100 % fill) for each of the primaryF1945052colors (cyan, magenta, yellow, and black), secondary colors(red, green, blue), and composite black (

37、cyan plus magentayellow). In addition, since lightfastness may vary as a functionof print density, low optical density patches are recommendedto test the lightfastness of binary images of discrete ink spots.A step wedge containing patches with a range of opticaldensities (for example 25 %, 50 %, 75

38、%, and 100 % fill) maybe useful for this test.9.4 For visual examination, the specimen size as indicatedin Practice D 1729 is a minimum of 312 by 612 in. (90 by 165mm). For instrumental evaluation, the specimen must be largeenough to cover the specimen port; a minimum size of 1.25 in.3 1.25 in. (35

39、mm 3 35 mm) is satisfactory for manyinstruments.9.5 For comparison of the exposed specimens with unex-posed specimens, prepare and/or measure the latter in thefollowing manner:9.5.1 For visually evaluated tests, set aside a replicate printor cut off a segment of suitable size; store in a dark, dry p

40、lace.9.5.2 For instrumentally evaluated tests, make color mea-surements on the relevant specimen area(s) prior to exposure.NOTE 3The unexposed file specimen should not be a masked speci-men. Even though shielded from radiation, some materials may undergocolor changes, due to the heat or moisture pre

41、sent during the test.9.6 Test prints on opaque substrates do not require backingmaterial and shall be tested in accordance with their intendeduse. Transparencies shall be backed with a white backingmaterial. Translucent substrates shall be backed with a diffuseblack backing material with an image de

42、nsity of 1.5 6 0.2 asdescribed in ANSI IT2.171995 Annex A1.10. Conditioning10.1 It is recommended that samples be conditioned at 25Cand 45 % RH for at least 24 h prior to testing. Specimensshould be visually inspected for color uniformity and surfaceirregularities, which could adversely affect color

43、 measurement.11. Procedure11.1 Perform the test in accordance with Test MethodD 4674, Method II or Method III.11.2 Test Method D 4674 Method II.11.2.1 Locate the apparatus in an area maintained between18C and 27C. Maintain chamber air temperature between30C and 40C. If the chamber air temperature ex

44、ceeds 40C,the device must be shut off and the cause for the hightemperature corrected before exposures can continue.11.2.2 Operate the device for at least 20 minutes, thenrecord the UV irradiance, (CWE(UV)inW/m2, 250-400 nm).Calculate the exposure time (CWt) necessary for the desiredcool white UV ra

45、diant exposure as described in section 11.5.11.3 Test Method D 4674, Method III11.3.1 Operate the equipment to maintain an uninsulatedBlack Panel temperature of 50C.11.3.2 In devices that automatically control irradiance, setthe irradiance level for the cool white fluorescent lamps to 44W/m2at 300-8

46、00 nm (15 klux). Calculate the exposure time(CWt) necessary for the desired cool white UV/visible radiantexposure as described in section 11.5. For example, for CWE= 44 W/m2at 300-800 nm and CWH= 158 3 106 J/m2at300-800 nm, the time in hours is 1000 (158 3 106/44 3 3600).11.3.3 In devices that do no

47、t automatically control irradi-ance, measure irradiance before and after exposure and use theaverage irradiance.NOTE 4Committee G03 is developing information to be published inthe appendices of Practice G 151 and Practice G 154 for guidance onuniformity conditions in the test chambers and allowed op

48、erationalfluctuations of the setpoints.NOTE 5Since these tests are timed by radiant exposure, the aboveformulas specified in section 11.5 for determining exposure time assumesthat reciprocity, i.e., the color change for the same radiant exposure atdifferent irradiance levels, applies to all ink jet

49、prints tested.11.4 Specimen RepositioningPeriodic repositioning of thespecimens during exposure is not necessary if the irradiance atthe positions farthest from the center of the specimen area is atleast 90 % of that measured at the center of the exposure area.Irradiance uniformity shall be determined in accordance withPractice G 15111.5 Duration of ExposureConduct exposures for theradiant exposure a total duration agreed upon by contractingparties based on UV radiant exposure for Test Method D 4674Method II and UV/visible radiant exposure for Test MethodD 46

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