ASTM F767-1998(2013) Standard Test Method for Image Stability of Chemical Carbonless Paper to Light《化学无碳纸曝光后图象稳定性的标准试验方法》.pdf

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1、Designation: F767 98 (Reapproved 2013)Standard Test Method forImage Stability of Chemical Carbonless Paper to Light1This standard is issued under the fixed designation F767; the number immediately following the designation indicates the year of originaladoption or, in the case of revision, the year

2、of last revision. A number in parentheses indicates the year of last reapproval. A superscriptepsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This test method covers the determination of the imagestability of chemical carbonless paper by exposure to fluores

3、-cent light for a controlled time period. Stability to light isdetermined by visual comparison between exposed and unex-posed samples.1.2 The values stated in inch-pound units are to be regardedas standard. The values given in parentheses are mathematicalconversions to SI units that are provided for

4、 information onlyand are not considered standard.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 re

5、gulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D585 Practice for Sampling and Accepting a Single Lot ofPaper, Paperboard, Fiberboard, and Related Product(Withdrawn 2010)3F221 Terminology Relating to Carbon Paper and InkedRibbon Products and Images Made TherefromF497 Pra

6、ctice for Use of the Electric and Electronic Type-writer as a Test InstrumentF549 Terminology Relating to Carbonless Copy Products3. Summary of Test Method3.1 Carbonless paper to be tested and previously testedcontrol paper are selected and prepared for imaging. The testsamples and control shall be

7、imaged during the same timeperiod with the same imaging device and pressure settings.Images are produced either on the coated front (CF) surface ofCF paper or on the CF surface of the coated front and back(CFB) paper. A portion of the image area for each test sampleand control is exposed to fluoresc

8、ent light for a controlledperiod of time. Image stability to light is determined by visualcomparison of exposed and unexposed imaged areas of thesame sample to exposed and unexposed imaged areas of acontrol paper. Comparisons are made by establishing animage-stability ranking order.4. Significance a

9、nd Use4.1 This test method is a comparative test for determiningthe relative image stability of chemical carbonless papersamples.4.2 The light source used simulates that of an officeenvironment, while accelerating image fade.5. Interferences5.1 Test results will depend upon image intensity and theim

10、aging method. The greater the pressure of the imagingdevice, the greater the amount of reactive material transferred,and the greater the intensity of the image. Fade resistance isgenerally increased when the intensity is high. Also, allcarbonless papers do not exhibit the same reactive materialtrans

11、fer efficiency with different imaging devices. Therefore,the imaging device used should ideally be the same as that onwhich the paper that is used in the final application. If this isnot possible, a commercial office electric typewriter set inaccordance with Practice F497 (maximum impact pressurewit

12、hout embossing) should be used.5.2 The image produced on carbonless paper is a result ofthe interaction of the coated back (CB) and coated front (CF)surfaces. The light stability of the image is thus a function ofboth coatings. Although the images on the CF surface areexposed to light with this meth

13、od, what is actually being testedis the light stability of the CB-CF combination. Therefore a CBpaper is tested in combination with a CF paper, and vice versa;a coated front and back (CFB) paper is tested separately witha CB paper and a CF paper to evaluate both surfaces.5.3 Only the images from the

14、 same combinations of coatedpapers should be compared (CB-CF; CB-CFB; CFB-CF;CFB-CFB) since one side of most chemical carbonless papersis affected by light more than the other.1This test method is under the jurisdiction ofASTM Committee F05 on BusinessImaging Products and is the direct responsibilit

15、y of Subcommittee F05.06 onCarbonless and Thermal Imaging Products.Current edition approved April 1, 2013. Published April 2013. Originallyapproved in 1982. Last previous edition approved in 2008 as F767 98 (2008).DOI: 10.1520/F0767-98R13.2For referenced ASTM standards, visit the ASTM website, www.a

16、stm.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.3The last approved version of this historical standard is referenced onwww.astm.org.Copyright ASTM International, 100 Barr

17、 Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States15.4 Any variation in light intensity or in the ambientconditions of temperature or humidity, or both, could affect theresults. Observe the manufacturers recommendations for lamplife.5.5 Testing differences between test facil

18、ities using replace-ment lamps may result in ranking differences due to differencesin spectral output.6. Apparatus6.1 Commercial Offce Typewriter, set in accordance withPractice F497, or other imaging device as explained in 5.1.6.2 Light-Exposure Cabinet, constructed as follows (seeFig. 1):6.2.1 Cab

19、inet, built from12-in. (13-mm) plywood. It shouldhave exterior dimensions of 21-in. (533 mm) width by 1134-in.(298-mm) height by 13-in. (330-mm) depth. The front panelshould be hinged to provide a door for inserting and removingtest specimens. A 21-in. (533-mm) width by 312-in. (89-mm)height by 1134

20、-in. (298-mm) depth cabinet base is recom-mended to provide easy door movement on a flat table. Theinterior of the cabinet should be painted with a flat white paint.6.2.2 Unshielded Fluorescent Light Fixtures, three 120-V,60-Hz, with rapid start ballasts should be installed in the top ofthe cabinet

21、interior. The fixtures should be equipped withF15T12 cool white fluorescent tubes. Mount the fixtures andtubes parallel to and across the 21-in. (533-mm) dimension ofthe cabinet, and center 334 in. (95 mm) apart. The rear fixtureshould be34 in. (19 mm) from the rear of the cabinet, and thefront fixt

22、ure 1 in. (25 mm) from the front of the cabinet.6.2.3 Single-Pole Single-Throw Switch, 10-A, 120-V, in-stalled outside the right side of the cabinet and wired to thelamp fixtures.6.2.4 Blower, 120-V, 60-Hz, rated at 15 c ft3/min (free air)minimum mounted outside the left side of the cabinet toprovid

23、e cooling to prevent heat buildup from the lamps. Cut ahole the size of the blower outlet through the cabinet panel toallow air into the cabinet interior. Mount the blower at thecenter of the panel.6.2.5 Single-Pole Single-Throw Switch, 10-A, 120-V,mounted directly under the blower.6.2.6 Exhaust Ven

24、t, 6 by 10-in. (152 by 254-mm), con-structed on the left side of the rear panel.6.2.7 All electrical accessories should be wired to a 120-Va-c service cord with ground. A15-A, 120-V slow-blow fuseshould be installed in line with the service cord.7. Materials7.1 Sheets of Paperboard, 812 by 11-in. (2

25、16 by 279-mm),made from recycled paper stock and commonly referred to as1. Base 6. F15T12 cool white fluorescent tube2. Exhaust vent 7. Unshielded fluorescent fixtures3. Shaded pole blower 8. Door hinges4. Fan switch 9. Door knob5. Light switchFIG. 1 Light Exposure CabinetF767 98 (2013)2“chipboard.”

26、 Plain 20 point chipboard with an approximatebasis weight of (376 g/m2) is recommended. Sheets of othercompletely opaque materials that are poor heat conductors anddo not interact with the CF and CB coatings may be substitutedfor chipboard.7.2 Previously tested carbonless papers to serve as controls

27、and test references.8. Sampling8.1 Sample the carbonless paper to be tested in accordancewith Practice D585.9. Test Specimens9.1 The test specimens shall be 812 by 11-in. (216 by279-mm) sheets of the CF, CB, and CFB carbonless papers.The 11-in. dimension should be parallel to the machinedirection of

28、 the paper.9.2 For each CF test sheet, select an 812 by 11-in. (216 by279-mm) sheet of CB carbonless. The CB sheet used should, ifpossible, be the same as that manifolded with the CF test sheetin its final application. If this is not possible, use the CB sheetrecommended by the CF paper manufacturer

29、. Similarly foreach CB test sheet, select a CF sheet under the same conditionsas above.9.3 Each CFB test sheet requires a CF and a CB sheet.When imaging from the CB surface of the CFB test sheet,place a CF sheet underneath the CB surface with the CFsurface of the CF sheet in contact with the CB surf

30、ace of theCFB test sheet. When imaging onto the CF surface of the CFBtest sheet, place a CB sheet on top of the CFB test sheet withthe CB surface of the CB sheet in contact with the CF surfaceof the CFB test sheet. The types of CF and CB sheets used withthe CFB test sheet follow the same conditions

31、as noted in 9.2.10. Procedure10.1 Testing CF Sheets:10.1.1 Manifold one CF sheet with a CB sheet with the CFand CB surfaces in contact with each other. The CF sheetshould be on the bottom. Handle sheets by their edges only,since finger prints may affect image development.10.1.2 In 10.1.3 through 10.

32、1.4 an imaging device otherthan a typewriter may be used, as explained in 5.1.10.1.3 Place the manifold set in an electric typewriter withthe 11-in. (279-mm) dimension perpendicular to the rollers.Type a line of the character # across the full 812-in. (216-mm)width of the set. Using the manual retur

33、n with no line feed,return to the first character. Type an X over each #.10.1.4 Using the manual line feed (on single spacing), movedown to the next line and repeat 10.1.3. Continue until at leastseven lines have been typed. The depth of the 812-in.(216-mm) wide imaged area should be 1 in. (25-mm) m

34、ini-mum.10.1.5 Remove the manifold set from the typewriter. Sepa-rate the CF sheet from the CB sheet and store the CF sheet ina dark drawer with the imaged side up. Time for imagedevelopment prior to light exposure should be the same for allsamples which are to be compared. Allow 24 h for completeim

35、age development.10.1.6 Repeat 10.1.1 through 10.1.5 for each carbonlesspaper to be tested, including the control. Label each as tomanufacturer, lot number, roll number, basis weight, grade, andcoating.10.2 Preparing Samples for Light Exposures:10.2.1 Cut an 812 by 3-in. (216 by 76-mm) grain shortsam

36、ple from an imaged CF sheet with the imaged area runningfull width across the 812-in. dimension and located in thecenter of the 3-in. dimension.10.2.2 Staple the sample to an 812 by 3-in. (216 by 76-mm)sheet of chipboard. Expose the imaged surface.10.2.3 Staple a 4-14 by 3-in. (108 by 76-mm) piece o

37、fchipboard over one half of the sample, exposing the test area.The chipboard will shield one half of the sample from light,providing visual observation of image fade during and uponcompletion of the testing.10.2.4 Repeat 10.2.1-10.2.3 for each imaged CF sheet, bothsamples and control.10.3 Light Expo

38、sure:10.3.1 Turn on cabinet lights and blower a minimum of 2 hprior to introduction of the samples. If new lamps have beeninstalled, a longer time of several days is suggested.10.3.2 Place the samples and control in the light exposurecabinet with the imaged side up exposed to the light source. Donot

39、 overlap or place specimens on top of one another. Amaximum of five specimens (four test samples and the control)may be placed in the cabinet with the 8-12-in. (216-mm)dimension running front to rear.10.3.3 Expose the specimens to cabinet light for 144 6 2hcontinuously. Rotate the specimens daily so

40、 that each specimenis located on the left, center, and right for an equal time duringthe 144 h.10.3.4 At the end of the exposure period, remove thespecimens from the light exposure cabinet.10.4 Testing CB Sheets:10.4.1 Repeat 10.1.1-10.3.4.10.5 Testing CFB Sheets-CF Surface:10.5.1 Manifold one CB sh

41、eet with a CFB sheet, with theCB sheet on top and its surface in contact with the CF surfaceof the CFB sheet. Place a sheet of 12-lb Bond paper next to theCB surface of the CFB paper, as CB material may transfer ontothe typewriter rollers. Handle sheets by their edges only, sincefingerprints may aff

42、ect image development.10.5.2 Repeat 10.1.2-10.1.4.10.5.3 Remove the manifold set from the typewriter. Sepa-rate the CFB sheet and store it in a dark drawer with the imagedside up. Allow 24 h for complete image development.10.5.4 Repeat 10.1.6-10.3.4.10.6 Testing CFB Sheet-CB Surface:10.6.1 Manifold

43、one CF sheet with a CFB sheet with the CFsheet on the bottom and its surface of the CF sheet in contactwith the CB surface of the CFB sheet. Handle sheets by theiredges only since fingerprints may affect image development.10.6.2 Repeat 10.1.2-10.3.4.F767 98 (2013)311. Interpretation of Results11.1 C

44、ompare visually the exposed and unexposed area ofthe control to a previously tested control of the same combi-nations of papers. This comparison ensures that the test was runproperly. If obvious differences exist, check the operation ofthe cabinet, the operation of the imaging device, and otheraspec

45、ts of the test. When the difficulty has been found andeliminated, rerun the test.11.2 Compare the exposed and unexposed areas of eachspecimen. Note changes in image intensity, image color, imagesharpness, and background color.11.3 Compare each specimen to the control. Note thechanges in stability of

46、 each sample and rate them to the controlas demonstrated in 11.2. (If the test objective is to comparedifferent specimens, note the changes in stability of eachsample compared to each other.)12. Report12.1 Report significant changes found in 11.2 for eachsample tested.12.2 Report on the stability of

47、 each sample compared to thecontrol as found in 11.3. Samples can also be compared witheach other.12.3 Establish a ranking order based on the evaluations of11.3 with the control or among themselves, if required.13. Precision and Bias13.1 Determination of ranking order is repeatable within alaborator

48、y and reproducible between laboratories. The test is acomparative test, is subjective, and no quantitative data areintended.14. Keywords14.1 carbonless copy paper; carbonless paper; chemicalcarbonless paper; image stability; light stabilityASTM International takes no position respecting the validity

49、 of any patent rights asserted in connection with any item mentionedin this standard. Users of this standard are expressly advised that determination of the validity of any such patent rights, and the riskof infringement of such rights, are entirely their own responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed every five years andif not revised, either reapproved or withdrawn. Your comments are invited either for revision of this standard or for additional standardsand should be addressed to

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