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本文(ASTM A239-1995(2009)e1 Standard Practice for Locating the Thinnest Spot in a Zinc (Galvanized) Coating on Iron or Steel Articles《用普力斯试验法(硫酸铜浸蚀)确定铁或钢制品上镀锌层最薄点的标准实施规程》.pdf)为本站会员(ideacase155)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 A239-1995(2009)e1 Standard Practice for Locating the Thinnest Spot in a Zinc (Galvanized) Coating on Iron or Steel Articles《用普力斯试验法(硫酸铜浸蚀)确定铁或钢制品上镀锌层最薄点的标准实施规程》.pdf

1、Designation: A 239 95 (Reapproved 2009)1Standard Practice forLocating the Thinnest Spot in a Zinc (Galvanized) Coatingon Iron or Steel Articles1, 2This standard is issued under the fixed designation A 239; the number immediately following the designation indicates the year oforiginal adoption or, in

2、 the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1NOTEReapprove

3、d with editorial change in May 2009.1. Scope*1.1 This practice covers the procedure for locating, by theuse of a solution of copper sulfate, the thinnest spot in a zinccoating (hot dipped, electroplated, or sprayed) on iron or steelarticles that are coated after the shape is produced by casting,draw

4、ing, pressing, or other forming methods. Examples are:electrical metallic tubing and rigid conduit pipe, castings andforgings, and structural steel; on special hardware, such aspoleline, builders, and farm implement hardware; bolts, nuts,screws, and other miscellaneous general hardware.1.2 The use o

5、f this practice with zinc coating depositedthrough different processes (such as hot dipped, electroplated,or sprayed) requires caution in interpretation since the endpoint may vary considerably between different zinc-coatingsystems.1.3 Excluded from this practice is sheet steel from hot-dipor electr

6、ocoating lines as the sheet products are normallysubject to additional forming after the coating process. Alsoexcluded from this practice are all zinc-coated wire and wireproducts either continuously or batch coated before or afterforming. WarningPast research (dating from around 1963)has indicated

7、that this practice can be influenced by operatortechnique. Variations can be due to the difference in handpressure used to wipe the sample or the inability of the operatorto recognize the end point.1.4 The values stated in inch-pound units are to be regardedas standard. The values given in parenthes

8、es are mathematicalconversions to SI units that are provided for information onlyand are not considered standard.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 sa

9、fety and health practices and determine the applica-bility of regulatory limitations prior to use.2. Significance and Use2.1 This practice is designed to locate the thinnest portionsof the zinc coating on newly coated items (see Appendix X1).Variations in coating thickness can be due to the process

10、bywhich the zinc is applied (hot dipped, electroplated, or sprayed)or by the geometry of the part that is coated. During hot-dipgalvanizing, the coating thickness is affected by the drainagepattern of the molten zinc, while during zinc spraying (metal-lizing), coating thickness can be dependent on t

11、he operatorsmanipulation of the spray nozzle. The geometry of the part canalso influence coating thickness especially during hot-dipgalvanizing, where peaks and valleys on the part can causemolten zinc to build up or thin out. This practice is designed toidentify those areas of the part where the co

12、ating is thin.3. Copper Sulfate Solution3.1 The copper sulfate solution shall be made by dissolvingapproximately 36 parts by weight of commercial cupric sulfatecrystals (CuSO45H2O) in 100 parts by weight of distilledwater (see 3.1.1). Heat may be used to complete the solution ofcupric sulfate crysta

13、ls. If heated, the solution shall be allowedto cool. The solution shall then be agitated with an excess ofpowdered cupric hydroxide (Cu(OH)2), about 0.13 oz/gal (1.0g/L) of solution. The presence of an excess of cupric hydroxide1This practice is under the jurisdiction of ASTM Committee A05 on Metall

14、ic-Coated Iron and Steel Products and is the direct responsibility of SubcommitteeA05.07 on Methods of Testing.Current edition approved May 1, 2009. Published August 2009. Originallyapproved in 1940. Last previous edition approved in 2004 as A 239 - 95(2004).2This practice is used to locate the thin

15、nest spot only, and is not intended as atest for coating weight. This practice is to be used only within the limits of Section1, Scope.1*A Summary of Changes section appears at the end of this standard.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959

16、, United States.will be shown by the sediment of this reagent at the bottom ofthe vessel. The neutralized solution shall be allowed to standfor 24 h and then filtered or decanted.3.1.1 Cupric oxide (CuO), 0.11 oz/gal (0.8 g/L) may besubstituted for cupric hydroxide, provided the solution isallowed t

17、o stand not less than 48 h after this addition beforedecanting or filtering.3.2 The solution shall have a specific gravity of 1.186 at18C (65F). To adjust a solution of improper specific gravity,add distilled water when the specific gravity is high, and add acopper sulfate solution of a higher speci

18、fic gravity when thesolution is low in specific gravity.4. Specimen Rinse Water4.1 Ordinary, clean tap water may be used for rinsingspecimens. If no running tap water is available, the rinse watershall be changed after each dip. The temperature of the rinsewater shall be from 15 to 21C (60 to 70F).5

19、. Quantity of Copper Sulfate Solution5.1 Hardware and Similar Articles For evaluating hard-ware and similar articles, the quantity of copper sulfatesolution required for each evaluation will depend on thesuperficial area of the specimen being evaluated and the weightof coating. The quantity should n

20、ot be less than 1.2 qt/oz/ft2(40.5 mL/g/m2) of zinc coating on the specimen (Note 1) andshall be sufficient to cover the specimen so that the top surfaceof the solution is at least12 in. (12.7 mm) above the top of thesection of the specimen under evaluation. The solution shall bediscarded after comp

21、letion of the evaluation, and fresh solutionshall be used for any additional evaluations.NOTE 1The theoretical minimum amount of copper sulfate solutionrequired to dissolve zinc is 0.4 qt/oz (13.5 mL/g). The quantity specifiedin 5.1 is three times this minimum to ensure adequate rate of solution.6.

22、Preparation of Specimens6.1 The specimens selected for evaluation shall be free ofabrasion or cuts in the zinc coating, except those which mayoccur during manufacture of the specimen. Where the area ofuncoated surface to be immersed is more than 10 % of the totalimmersed surface area, precautions, s

23、uch as plugs for tubularmaterial, or lacquer, paraffin, or other suitable coatings for theuncoated surfaces must be taken so as not to deplete thestrength of copper sulfate solution.6.2 Clean the specimens with a suitable volatile organicsolvent and finally, thoroughly wash with clean water and wipe

24、dry with a clean cotton cloth. Unless otherwise specified,remove lacquer or varnish coatings with a suitable clean,volatile organic solvent such as acetone, which will not attackthe zinc coating or leave a greasy or waxy deposit. Thoroughlyrinse the specimens in clean water and wipe dry with a clean

25、cotton cloth. Bring the specimens to a temperature between 15and 21C (60 and 70F) prior to the beginning of theimmersion series.6.3 Abnormal cases may arise when, by reason of unusualsurface conditions, the copper sulfate solution will not actnormally on the zinc coating. For example, the solution m

26、ayhave no apparent attack on all or part of the surface, or falsedeposits of copper may appear on the zinc coating. If there isany question of abnormality of performance of specimens,discard the specimens and select new ones. Clean the newspecimens in alcohol, rinse, and wipe dry. Then immerse for 3

27、min in a solution consisting of 1 part by volume of ammoniumhydroxide (sp gr 0.90) and 9 parts of water. The specimens maybe scrubbed with a cotton cloth during this immersion. Aftercleaning, wash the specimens and wipe dry, then subject themto the procedure described in Section 7.7. Procedure7.1 Im

28、merse the specimens in the copper sulfate solution,which shall be maintained at a temperature of 16 to 20C (61to 68F). Allow the specimens to remain in a fixed position inthe solution for exactly 1 min. Do not agitate the solutionduring the immersion period, nor allow the specimens to toucheach othe

29、r or the sides of the container. After each 1-minimmersion, wash the specimens immediately in the rinse water,and use a fiber bristle brush to remove any copper deposit thatmay have formed on the zinc coating. Before returning thespecimens to the copper sulfate solution, drain thoroughly ofexcess ri

30、nse water and wipe dry with a clean cloth.7.2 Continue successive immersions of 1 min each, washingand wiping the specimens after each immersion until the endpoint has been reached (see Appendix X2).NOTE 2Zinc coatings on threads are usually difficult to test. It hasbeen found advantageous to saw fe

31、male-threaded parts longitudinally,exposing the threads to full view and facilitating cleaning to removesponge copper after each immersion in the copper sulfate solution.Brushing should be parallel to the threads.8. End Point8.1 The end point shall be recognized by the appearance ofbright, adherent

32、copper deposits. However, if such a depositfails to form after the complete disappearance of the zinccoating, the immersion succeeding the disappearance of thezinc shall be recognized as representing the end point.8.2 Confirm adherence of the bright copper deposit by apeeling test. If it is possible

33、 to remove the copper with an inkeraser or to peel the copper with the edge of a blunt tool suchas the back of a knife blade, and zinc appears underneath thecopper, such an appearance of deposited copper shall not beconstrued as an end point.8.3 A fine line appearance of copper on the top of screwth

34、reads or on sharp edges of articles, or within 1 in. (25 mm)of a cut portion of a specimen, shall not be judged as an endpoint. Likewise, the indication of bright adherent deposits ofcopper at or adjacent to any cut or abrasion present on theoriginal specimen shall not be considered an end point.9.

35、Supplementary Tests9.1 If at any time during the immersion procedure there isany doubt as to the presence of exposed base metal, asdetermined by visual inspection, there are several supplemen-tary tests described in Section 10, one or more of which may beused depending on the type of coating being e

36、valuated.10. Supplementary Test for All Types of Zinc Coatings10.1 Microscopical TestSection the specimen through thecopper deposit, mount, and polish it for metallographic analy-sis. Etch the polished surface using an etching solutionA 239 95 (2009)12composed of 20 g of chromic acid, 1.5 g of sodiu

37、m sulfate, and100 mL of distilled water (Palmerton reagent). After etching,wash the specimen with alcohol. Examine the etched specimenunder a microscope, using a magnification of 100 diameters orgreater if necessary.10.2 Qualitative Test for Zinc3Apply a drop (or severaldrops) of diluted hydrochlori

38、c acid to the area in question(depending on its size). The presence of zinc is indicated byimmediate vigorous effervescence (evolution of hydrogen). Ifno appreciable zinc is present, the effervescence will be mild.By carefully removing the acid, a confirming test for zinc maybe made as follows: neut

39、ralize the acid with ammoniumhydroxide, acidify with acetic acid, and pass hydrogen sulfideinto the solution; a white precipitate (zinc sulfide, ZnS)confirms the presence of zinc.11. Keywords11.1 bolts; electroplated; hardware; hot dipped; nuts;screws; thinnest spot; zinc coating thicknessAPPENDIXES

40、(Nonmandatory Information)X1. APPLICATION OF THIS PRACTICE TO WEATHERED GALVANIZED WAREX1.1 This practice is not applicable to aged or weatheredmaterial because of the corrosion film present on the zinccoating. If it is desired to use this practice on such material, thecorrosion film should be remov

41、ed before conducting thisprocedure by immersing the specimens for 3 min in anammonium hydroxide solution (1 part by volume of ammo-nium hydroxide (sp gr 0.90) to 9 parts by volume of distilledwater) then rinsing the specimens in clean water and wipingthem dry.X2. STANDARD FOR COMPARISONX2.1 If it is

42、 desired to show the character of the brightmetallic copper deposit on an exposed iron or steel surface, areference standard for comparison may be prepared as follows:Partially submerge a zinc-coated specimen in strong hydro-chloric acid until violent action ceases. Immediately removethe specimen, w

43、ash, and wipe it dry. The specimen with an areaof bare surface thus exposed, including a portion with zinccoating intact, is then dipped for a few seconds in the coppersulfate solution at a temperature of 16 to 20C (61 to 68F),removed, washed, and wiped dry. This copper-coated referencestandard shou

44、ld be prepared at the time this practice is beingconducted.X3. ACTION OF COPPER SULFATE SOLUTION ON ZINC COATINGSX3.1 The fact that this practice cannot be used for deter-mining the weight of zinc coating is due to the wide variationin the rate of solubility of the various types of coating resulting

45、from differences in the composition and structure of thecoatings. For instance, electroplated and sprayed-zinc coatingsconsist essentially of pure zinc; the outer part of hot-dippedcoatings consists of nearly pure zinc; whereas, the portion nextto the steel base is composed of zinc-iron alloys; in t

46、he case ofhot-dipped coatings heated after galvanizing, the coating con-sists almost entirely of zinc-iron alloys.X3.2 In view of these differences in the makeup of the zinccoatings applied by the different processes, it has been foundby Groesbeck and Walkup4in tests on a limited number ofsamples th

47、at electroplated and flame-sprayed coatings, byreason of their high pure-zinc content, dissolve rather rapidlyin the copper sulfate solution; that the conventional hot-dipcoatings dissolve only about two thirds as fast as the pure zinccoatings; and that the hot-dip coatings heated after galvanizingd

48、issolve only about half as fast as the pure zinc coatings.3Only an outline of the test is given. The details of the test may be found intechnical literature.4For further information on this test method, reference may be made to thefollowing papers:Walkup, H. H., and Groesbeck, E. C., “Some Factors A

49、ffecting the Preece Testfor Zinc Coatings,” Proceedings, ASTM, Vol 32, Part II, 1932, p. 453.Groesbeck, E. C., and Walkup, H. H., “Preece Test (Copper Sulphate Dip) forZinc Coatings,” National Institute of Standards and Technology Journal ofResearch, Vol 12, No. 6, June 1934, p. 785 (Research Paper RP688).A 239 95 (2009)13SUMMARY OF CHANGESCommittee A05 has identified the location of selected changes to this standard since the last issue(A 239 - 95(2004) that may impact the use of this standard. (May 1, 2009)(1) Editorially added 1.4 and renumbered Section 1.

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