ASTM D5009-2002(2005) Standard Test Method for Evaluating and Comparing Transfer Efficiency of Spray Applied Coatings Under Laboratory Conditions《实验室条件下评估和比较喷涂层传送效率的标准试验方法》.pdf

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ASTM D5009-2002(2005) Standard Test Method for Evaluating and Comparing Transfer Efficiency of Spray Applied Coatings Under Laboratory Conditions《实验室条件下评估和比较喷涂层传送效率的标准试验方法》.pdf_第1页
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1、Designation: D 5009 02 (Reapproved 2005)Standard Test Method forEvaluating and Comparing Transfer Efficiency of SprayApplied Coatings Under Laboratory Conditions1This standard is issued under the fixed designation D 5009; the number immediately following the designation indicates the year oforiginal

2、 adoption or, in the 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.1. Scope1.1 This test method covers the evaluation and comparisonof the transf

3、er efficiency of spray-applied coatings undercontrolled laboratory conditions.1.2 This test method has been shown to yield excellentintralaboratory reproducibility. Interlaboratory precision ispoorer and is highly dependent on closely controlled air flow inthe spray booth, the rate at which the pain

4、t is delivered to thepart, and other variables suggested in the test method.1.3 Limitations:1.3.1 This laboratory procedure only indicates the directionof the effect of spray variables on transfer efficiency. Themagnitude of the effect is determined only by specific plantexperience.NOTE 1This labora

5、tory procedure requires specific equipment andprocedures. For those laboratories that do not have access to the type ofequipment required a more general laboratory procedure is being preparedas Procedure B.1.4 The values stated in SI units are to be regarded as thestandard. The values given in paren

6、theses are for informationonly.1.5 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 limitatio

7、ns prior to use. For specific hazardstatements, see Section 7 and 8.11.9 and 8.13.2.2. Referenced Documents2.1 ASTM Standards:2D 1200 Test Method for Viscosity by Ford Viscosity CupD 2369 Test Method for Volatile Content of CoatingsD 3925 Practice for Sampling Liquid Paints and RelatedPigmented Coat

8、ings2.2 National Fire Protection Association Documents3NFPA33 SprayApplication Using Flammable and Combus-tible MaterialsNFPA 86 Standard for Ovens and Furnaces3. Terminology3.1 Definitions of Terms Specific to This Standard:3.1.1 conveyor speed, nthe speed of the conveyor incentimeters per minute d

9、uring the test.3.1.2 fluid mass flow rate, nthe mass flow rate of paint ingrams per minute during the test.3.1.3 mass of foil, nthe weight of each target foil in gramsbefore being painted.3.1.4 mass of foil plus paint solids, nthe weight of eachtarget foil in grams after being painted and baked.3.1.

10、5 mass of paint solids, nthe difference in the mass ofthe foils before painting and the mass of the foils after paintingand baking. This is the sum of the mass of the foil plus paintsolids less the sum of the mass of the foil.3.1.6 transfer effciency, nthe ratio of the mass of thepaint solids deposi

11、ted on the foil to the mass of the paint solidssprayed during the test expressed as a percent.3.1.7 weight percent solids, nthe solids content in percentof the total weight of a sample of the paint used during the test.4. Summary of Test Method4.1 Metal panels covered with preweighed aluminum foilar

12、e conveyed in a spraybooth past a fixed spraygun. The coatedfoils are then baked to remove volatile matter. The transferefficiency is calculated on a weight basis using the solidscontent and quantity of the paint sprayed and the amount ofsolids on the coated aluminum foil target.5. Significance and

13、Use5.1 Subject to the limitations listed above, the procedure canbe used as a research tool to optimize spray equipment andpaint formulations as well as to study the relative effect on1This test method is under the jurisdiction of ASTM Committee D01 on Paintand Related Coatings, Materials, and Appli

14、cations and is the direct responsibility ofSubcommittee D01.55 on Factory Applied Coatings on Preformed Products.Current edition approved May 15, 2005. Published July 2005. Originallyapproved in 1996. Last previous edition approved in 2002 as D 5009 02.2For referenced ASTM standards, visit the ASTM

15、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.3Available from National Fire Protection Association (NFPA), 1 BatterymarchPark, Quincy, MA 02269-9101.1Copy

16、right ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.transfer efficiency of changing operating variables, sprayapplication equipment, and types of coatings.6. Apparatus6.1 Laboratory Scale, accurate to 60.001 g for weightpercent solids determi

17、nation.6.2 Platform Scale, accurate, or equivalent, to 60.01 g formass of foil, mass of foil plus paint, and mass flow rateinstrumentation calibration.6.3 Mass Flow Rate Meter, or mass flow rate determinationmethod, accurate to 62 % of the mass flow rate to be usedduring the test.6.4 Conveyor Timer

18、or conveyor timing method, accurateto 61 % of the conveyor speed to be used during the test. Theequipment may consist of photoelectric cells or limit switchesused in conjunction with a digital timer or timing marks on theconveyor used in conjunction with a stopwatch. Take at leasttwo readings with a

19、 stopwatch and average the readings.6.5 Targets, consisting of a set of ten steel panels 15.2 cm (6in.) wide by 0.15875 cm (0.0625 in.) with 0.635-cm (0.25-in.)radius corners. A minimum panel length of 121.9 cm (48 in.)should be used. The length of the panel should be set so that aminimum of 30.4 cm

20、 (12 in.) above and below the spraypattern is achieved.6.5.1 It is essential to do this so that the entire height of thespray pattern is effectively captured.6.6 Aluminum Foil, medium temper or equivalent, 1.5 mil(0.0037 cm) thick.6.7 Back-Draw Water Wash Spray Booth, or equivalent. Thebooth should

21、be a minimum of 1.8 m (6 ft) wide and capableof up to 0.61 m/s (120 ft/min) air velocity in the middle at theplane of the target. If a dry filter booth is used, filters should bechanged as necessary to maintain uniform air velocity.6.8 Adjustable Rate Overhead Conveyor System, capable ofhanging targ

22、ets as specified, and capable of up to 0.20 m/s (40ft/min) or the maximum speed desired by the user.6.9 Forced Draft Curing Oven, of sufficient size for curingtargets, and capable of achieving and maintaining the curetemperatures specified by the paint supplier. All ovens shouldconform to NFPA 86.6.

23、10 Curing Rack.6.11 Stopwatch.6.12 Air Velocity Measurement Equipment.6.13 Humidity and Temperature Measurement Equipment.6.14 Compressed Air Supply.7. Hazards7.1 For specific hazard information and guidance, consultthe suppliers Material Safety Data Sheet (MSDS) for thematerials used.8. Procedure8.

24、1 Set up the spray apparatus paint supply and the massflow measurement equipment in accordance with the manufac-turers instructions.8.1.1 In accordance with Chapter 9-11 of NFPA 33, allelectrically conductive objects in the spray area, except thoseobjects required by the process to be at high voltag

25、e, shall beadequately grounded.8.2 Agitate paint in a closed container at least 30 min beforeany paint samples are taken.8.3 Using an airtight container take a paint grab samplefrom the paint pot in accordance with Practice D 3925.8.4 Determine and record the following from the paintsample:8.4.1 Vis

26、cosity determined in accordance with Test MethodD 1200.8.4.2 Weight percent solids determined in accordance withTest Method D 2369. If the baking temperature in Test MethodD 2369 is inadequate, use the manufacturers recommendedcure schedule.8.4.3 Resistivity for the samples being applied electrostat

27、i-cally (An ASTM method is under development).8.5 Set up the conveyor speed measuring equipment.8.6 Cut the aluminum foil to dimensions of 38 cm (15 in.)by approximately 127 cm (50 in.) or 5 cm (2 in.) longer thanthe length of the target panel.8.7 Consecutively number each precut foil strip beforewe

28、ighing using a permanent marking pen.8.8 Weigh each test foil strip and record the uncoatedweight and the foil number.8.9 Attach the preweighed, labeled test foil to six targetsusing the technique shown in Fig. 1. Attach the unlabeled foilon four scavenger targets as shown in Fig. 1.8.10 Mount the f

29、oil covered targets in consecutive order asshown in Fig. 2, with the foil seam on each target facing awayfrom the spray gun.8.10.1 If electrostatic equipment is being used the resistanceshall be less than 1 by 106V between the target and the earthground in accordance with Chapter 9-8 of NFPA 33.FIG.

30、 1 Foil Attachment TechniqueD 5009 02 (2005)28.11 Adjust the following equipment operating parametersto the values desired for testing:8.11.1 Paint fluid pressure (kilopascals) at spray gun.8.11.2 Atomizing air pressure (kilopascals) at spray gun.8.11.3 Rotating atomizer head speed (revolutions perm

31、inute) with and without paint fluid flow.8.11.4 Operating voltage (kilovolts) if electrostatic equip-ment is used.8.11.5 Ambient air temperature (degree Celsius).8.11.6 Paint fluid temperature (degree Celsius).8.11.7 Booth air velocity (feet per minute).8.11.8 Relative humidity (percent).8.11.9 Spra

32、y gun to target distance (centimeters).(WarningIf electrostatic equipment is being used, the gun-to-target distance shall be at least twice the sparking distance inaccordance with Chapter 9-7 of NFPA 33.)8.11.10 Conveyor speed (centimetres per second).8.11.11 Fluid mass flow rate (grams per minute).

33、8.11.12 Set the cure time and temperature in accordancewith the manufacturers instructions.8.12 For electrostatic spray equipment, measure the operat-ing voltage and adjust it according to the manufacturersinstructions.8.13 Turn on the spray booth and conveyor. At least 15 sbefore the first scavenge

34、r target passes in front of the gun, turnon the paint spray equipment. Maintain uniform paint flowduring the test.8.13.1 If mass flow measurement is used, begin the flowmeasurement at the leading edge of the first scavenger targetand stop the mass flow measurement at the trailing edge of thelast sca

35、venger target.8.13.2 If mass flow measurement equipment is not availableuse the following technique. Just before turning on the spraybooth and the conveyor, spray the gun into a preweighedcovered plastic container for a minimum of 30 s.(WarningIn addition to other precautions, turn off all highvolta

36、ge to electrostatic spray guns to prevent personal injury.)8.13.3 Immediately weigh the container with paint, calcu-late the flow rate, and record the result. Just after turning off thespray booth and conveyor, repeat this procedure. Average thetwo results to obtain the average flow rate for the tes

37、t.NOTE 2A gallon plastic bottle with the top cut off to conveniently fitaround the front of the gun is recommended to use with the aboveprocedure. A large plastic beaker covered with plastic wrap with a holepunched in the center of the plastic wrap works also.Turn off all air sources to the spray gu

38、n before using the aboveprocedure to prevent paint splattering out of the container.8.14 Record the following data:8.14.1 Application Equipment:8.14.1.1 Paint fluid pressure (kilopascals) at the spray gun,8.14.1.2 Atomizing air pressure (kilopascals) at the spraygun,8.14.1.3 Rotating atomizer head s

39、peed (revolutions perminute) with and without paint fluid flow, and8.14.1.4 Operating voltage (kilovolts) if electrostatic equip-ment is used.8.14.2 Spray Booth and Conveyor:8.14.2.1 Ambient temperature (degrees Celsius),8.14.2.2 Paint fluid temperature (degrees Celsius),8.14.2.3 Booth air velocity

40、(foot per minute),8.14.2.4 Relative humidity (percent),8.14.2.5 Spray gun to target distance (centimeters),8.14.2.6 Conveyor speed (centimeters per minute), and8.14.2.7 Fluid mass flow rate (grams per minute).8.15 After the paint flow and the conveyor are stopped,remove the painted targets from the

41、conveyor and ensure thatno paint is lost. Measure the wet film thickness to ensure thatthe proper amount of paint has been applied and record the wetfilm thickness.FIG. 2 Target Configuration for Transfer Efficiency DeterminationD 5009 02 (2005)38.16 Securely hang the coated targets on oven racks so

42、 allpainted surfaces are exposed for uniform drying. Insert theracks into the oven and bake at the recommended manufactur-ers cure schedule.8.17 Remove the targets from the oven and let cool.8.18 Remove the foil from each target, weigh and record thecoated weight, the foil number, the percent vertic

43、al filmcoverage, and the dry film thickness at the center of the spraypattern.8.19 The mass of the paint solids deposited is the differencein the total weight of the foils before painting and the totalweight of the foils after painting and baking.9. Calculation9.1 Calculate the transfer efficiency u

44、sing the followingequation:T 5 100 3 C 3 P!/F 3 S 3 W!where:T = transfer efficiency,%C = conveyor speed, cm/min,P = mass of paint solids deposited, g,F = fluid delivery rate, g/min,S = weight percent solids expressed as a decimal, andW = effective target width, 30.48 cm.10. Report10.1 Report the fol

45、lowing information:10.1.1 Transfer efficiency results,10.1.2 Type of spray equipment,10.1.3 Type of paint applied,10.1.4 Paint application conditions, and10.1.5 Conditions of test other than those specified in theprocedure section of this test method.11. Precision and Bias11.1 This test method is de

46、rived from a study and report oftransfer efficiency measurements conducted for the U. S.Environmental Protection Agency.4The procedure describedwas subjected to round-robin evaluation following ASTMguidelines. The procedure was used at eight laboratories andresults were obtained using conventional a

47、irless, electrostaticair spray, and conventional air spray equipment. Statisticaltreatment of the results for the test sites and spray equipmenttype (gun) yields the following transfer efficiency results:Type of Gun Variance Standard DeviationConventional airless:Within laboratory 1.22 1.10Between l

48、aboratory 26.41 .Gun 6.22 .Total 33.85 5.82Electrostatic Air Spray:Within laboratory 3.63 1.91Between laboratory 72.02Gun 13.01Total 88.66 9.42Conventional Air Spray:Within laboratory 2.30 1.50Between laboratory 42.90Gun 0.88Total 46.08 6.7911.2 No information can be presented on the bias of theproc

49、edure in Test Method D 5009 for measuring transferefficiency because no acceptable reference standard is avail-able.12. Keywords12.1 laboratory method; spray applied coatings; transferefficiencyASTM International takes no position respecting the validity 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

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