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本文(ASTM G77-2005(2010) Standard Test Method for Ranking Resistance of Materials to Sliding Wear Using Block-on-Ring Wear Test《用环块磨损试验为材料抗滑动磨损分级的的标准试验方法》.pdf)为本站会员(rimleave225)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 G77-2005(2010) Standard Test Method for Ranking Resistance of Materials to Sliding Wear Using Block-on-Ring Wear Test《用环块磨损试验为材料抗滑动磨损分级的的标准试验方法》.pdf

1、Designation: G77 05 (Reapproved 2010)Standard Test Method forRanking Resistance of Materials to Sliding Wear UsingBlock-on-Ring Wear Test1This standard is issued under the fixed designation G77; the number immediately following the designation indicates the year of originaladoption or, in the case o

2、f revision, the year of last revision.Anumber in parentheses indicates the year of last reapproval.Asuperscriptepsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This test method covers laboratory procedures for de-termining the resistance of materials to slid

3、ing wear. The testutilizes a block-on-ring friction and wear testing machine torank pairs of materials according to their sliding wear charac-teristics under various conditions.1.2 An important attribute of this test is that it is veryflexible.Any material that can be fabricated into, or applied to,

4、blocks and rings can be tested. Thus, the potential materialscombinations are endless. However, the interlaboratory testinghas been limited to metals. In addition, the test can be run withvarious lubricants, liquids, or gaseous atmospheres, as desired,to simulate service conditions. Rotational speed

5、 and load canalso be varied to better correspond to service requirements.1.3 The values stated in SI units are to be regarded as thestandard. The values given in parentheses are for informationonly. Wear test results are reported as the volume loss in cubicmillimetres for both the block and ring. Ma

6、terials of higherwear resistance will have lower volume loss.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 establish appro-priate safety and health practices and determine the applica-

7、bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D2714 Test Method for Calibration and Operation of theFalex Block-on-Ring Friction and Wear Testing MachineE122 Practice for Calculating Sample Size to Estimate,With Specified Precision, the Average for a Charac

8、teristicof a Lot or ProcessE177 Practice for Use of the Terms Precision and Bias inASTM Test MethodsE691 Practice for Conducting an Interlaboratory Study toDetermine the Precision of a Test MethodG40 Terminology Relating to Wear and Erosion3. Terminology3.1 Definitions:3.1.1 weardamage to a solid su

9、rface, generally involvingprogressive loss of material, due to relative motion betweenthat surface and a contacting substance or substances.3.1.2 For additional definitions pertinent to this test method,see Terminology G40.4. Summary of Test Method4.1 A test block is loaded against a test ring that

10、rotates at agiven speed for a given number of revolutions. Block scarvolume is calculated from the block scar width, and ring scarvolume is calculated from ring weight loss. The friction forcerequired to keep the block in place is continuously measuredduring the test with a load cell. These data, co

11、mbined withnormal force data, are converted to coefficient of frictionvalues and reported.5. Significance and Use5.1 The significance of this test method in any overallmeasurement program directed toward a service applicationwill depend on the relative match of test conditions to theconditions of th

12、e service application.5.2 This test method seeks only to prescribe the general testprocedure and method of calculating and reporting data. Thechoice of test operating parameters is left to the user. A fixedamount of sliding distance must be used because wear isusually non-linear with distance in thi

13、s test.6. Apparatus and Materials6.1 Test SchematicA schematic of one possible block-on-ring wear test geometry is shown in Fig. 1.36.2 Test RingA typical test ring is shown in Fig. 2. Thetest ring must have an outer diameter of 34.99 6 0.025 mm(1.377 6 0.001 in.) with an eccentricity between the in

14、ner and1This test method is under the jurisdiction of ASTM Committee G02 on Wearand Erosion and is the direct responsibility of G02.40 on Non-Abrasive Wear.Current edition approved April 1, 2010. Published May 2010. Originallyapproved in 1983. Last previous edition approved in 2005 as G77051. DOI:10

15、.1520/G0077-05R10.2For referenced ASTM standards, visit the ASTM 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.3Several machines have been found satisfact

16、ory for the purposes of this test.These models may differ in lever arm ratio, load range, speed control (variable orfixed), speed range, and type of friction measuring device.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.outer surf

17、ace of no greater than 0.00125 mm (0.0005 in.). Forcouples where surface condition is not under study, it isrecommended that the outer diameter be a ground surface witha roughness of 0.152 to 0.305 m (6 to 12 in.) rms or centerline average (CLA), in the direction of motion. However,alternate surface

18、 conditions may be evaluated in the test, asdesired. It should be kept in mind that surface condition canhave an effect on sliding wear results.6.3 Test BlockAtest block is shown in Fig. 3. Block widthis 6.35 + 0.000, 0.025 mm (0.250 + 0.000, 0.001 in.). Forcouples where surface condition is not a p

19、arameter under study,a ground surface with the grinding marks running parallel tothe long axis of the block and a roughness of 0.102 to 0.203 m(4 to 8 in.) CLA in the direction of motion is recommended.However, other surface conditions may be evaluated as de-sired.6.4 Analytical Balance, capable of

20、measuring to the nearest0.1 mg.6.5 Optical Device (or equivalent), with metric or inch-pound unit calibration, is also necessary so that scar width canbe measured with a precision of 0.005 mm (0.0002 in.) orequivalent.7. Reagents7.1 Methanol.8. Preparation and Calibration of Apparatus8.1 Run the cal

21、ibration procedure that is in Test MethodD2714 to ensure good mechanical operation of the testequipment.9. Procedure9.1 Clean the block and ring using a procedure that willremove any scale, oil film, or residue without damaging thesurface.9.1.1 For metals, the following procedure is recommended:clea

22、n the block and ring in a non-chlorine containing solvent,ultrasonically, if possible; a methanol rinse may be used toremove any traces of solvent residue. Allow the blocks andrings to dry completely. Handle the block and ring with clean,lint-free cotton gloves from this point on.9.2 Make surface te

23、xture and surface roughness measure-ments across the width of the block and the ring, as necessary.Note that a surface profile does not completely describe asurface topology. Scanning electron micrographs may be used,as desired, to augment the description of the wear surfaces.Clean the block and the

24、 ring if necessary as in 9.1.9.3 Demagnetize the metal specimens and ferrous assembly.Weigh the block and ring to the nearest 0.1 mg.9.4 Measure the block width and ring diameter to thenearest 0.025 mm (0.001 in.).9.5 Clean the self-aligning block holder, ring shaft, andlubricant reservoir with solv

25、ent.9.6 Put the self-aligning block holder on the block.9.7 Place the block in position on the machine and, whileholding the block in position, place the ring on the shaft andlock the ring in place, using a test method in accordance withthe requirements of the specific machine design.9.8 Center the

26、block on the ring while placing a lightmanual pressure on the lever arm to bring the block and ringinto contact. Be sure the edge of the block is parallel to theedge of the ring and that the mating surfaces are perfectlyaligned. This is accomplished by making sure the specimenholder is free during m

27、ounting so that the self-aligning blockholder can properly seat itself. Release the pressure on thelever arm.9.9 One may choose either a preloading or a step-loadingprocedure. Generally, preloading is chosen for variable speedmachines, while step-loading is chosen for fixed speed ma-chines in order

28、to avoid an initial high wear transient. Thedifferences in the two procedures are indicated in 9.10-9.22.9.10 Place the required weights on the load bale and adjustthe lever arm in accordance with the requirements of thespecific machine design. Then remove the load by raising theweights, if using th

29、e preloading procedure, or by removing theweights if using the step-loading procedure.9.11 If running a lubricated test, clean all components thatwill come in contact with lubricant; fill the lubricant reservoirwith lubricant to 6.4 mm (0.25 in.) above the lower surface ofthe ring; rotate the ring s

30、everal times.9.12 Set the revolution counter to zero.9.13 Gently lower the weights, applying the required load, ifusing the preloading procedure.9.14 If using a variable speed machine, turn on the machineand slowly increase the power to the drive motor until the ringstarts to rotate, recording the “

31、static” friction force. Continue toincrease the rate of rotation to the desired rate. If using a fixedspeed machine, simply turn on the machine.FIG. 1 Test SchematicG77 05 (2010)29.15 If using step-loading, start the machine with noweights, then gently add a 133-N (30-lbf) load every 200 revuntil th

32、e required test load is reached. Adjust the rate ofrotation as needed. If the required load is less than 133 N, applythe load in one step.9.16 During the test, record the friction force, lubricant orblock temperature, as required, and, if desired, the verticaldisplacement of the block.9.17 Stop the

33、test manually or automatically after thedesired number of revolutions.49.18 A final “static” friction force may be measured with avariable speed machine. Leaving on the full load, wait 3 min 645400 and 10 800 revolutions have been used for metals in interlaboratory testprograms.NOTEThe outer diamete

34、r and concentricity with the inner diameter are the only critical parameters. The inner diameter is optional depending onmachine design. The inside diameter taper shown fits a number of standard machines.FIG. 2 Test RingFIG. 3 Test BlockG77 05 (2010)310 s, then turn on the machine and slowly increas

35、e the powerto the drive motor until the ring starts to rotate, recording the“static” final friction force. Then turn off the motor.9.19 Remove the block and ring, clean, and reweigh to thenearest 0.1 mg.9.20 Make surface roughness measurements and profilome-ter traces across the width of the block a

36、nd the ring as desired.Atrace along the long axis of the block, through the wear scar,is also useful to verify the scar depth and shape.59.21 Measure the scar width on the test block in the centerand ;1 mm (0.04 in.) away from each edge. These measure-ments shall be to the nearest 0.025 mm (0.001 in

37、.). Record theaverage of the three readings. Sometimes oxidation debris or alip of plastically deformed material will extend over the edgeof the wear scar (Fig. 4). When measuring scar width, try tovisually ignore this material or measure the scar width in anarea where this is not a problem.9.22 Tap

38、ered scars indicate improper block alignment dur-ing testing. If the three width measurements on a given scarhave a coefficient of variation of greater than 10 %, the testshall be declared invalid.10. Calculation10.1 Calculation of Block Scar Volume:10.1.1 Block scar volume may be derived from block

39、 scarwidth by using Table 1 (applicable only when ring diameter is34.99 6 0.025 mm (1.377 6 0.001 in.) and scar length (blockwidth) is 6.35 + 0.000, 0.025 mm (0.250 + 0.000, 0.001in.).10.1.2 The preferred method of calculating block scarvolume is by using the formula shown in Fig. 5. This formulamay

40、 be programmed on a calculator or computer.10.1.3 Block scar volume is not calculated generally fromblock mass loss because block mass is subject to effects ofmaterials transfer, generation of oxide films, or penetration of5On some of the old test machines, it is possible for the block to move back

41、andforth slightly, increasing the apparent size of the wear scar. If this problem issuspected, a profilometer trace through the wear scar will verify whether or not thescar shape corresponds to the curvature of the ring.A. A good rectangular scar with straight edges.B. The center of the scar is curv

42、ed because the block was crowned. Also, debris covers the center left edge of the scar. Ordinarily, the debris should be visually ig-nored, but in this case scar curvature makes this too difficult. The test should be rerun.C. Severe galling resulted in jagged scar edges and a lip of plastically defo

43、rmed material along the right side of the scar. The raised lip of material is excluded fromthe scar measurement. The cross hair should be run to a visual average of the jagged edge, not to the point of a zigzag.D. Tapered scar with jagged edges. This scar is too tapered (coefficient of variation 10

44、%); therefore, the test should be rerun.FIG. 4 Block ScarsG77 05 (2010)4the material by the lubricant. Keeping in mind the abovefactors, block mass loss may be interpreted semiquantitativelyin a comparative evaluation of various material couples. If theblock scar cannot be accurately measured follow

45、ing 9.21 andthe guidance in Fig. 4, a scar volume should not be calculated,but a notation made of the problem; for example, materialtransfer, plastic deformation, and so forth.10.2 Calculate coefficient of friction values from frictionforce values as follows:f 5 F/W (1)where:f = coefficient of frict

46、ionF = measured friction force, N (lbf), andW = normal force, N (lbf).10.3 Calculate ring volume loss as follows:volume loss 5ring mass lossring density(2)NOTE 1If the ring gains mass during the test, the volume loss isreported as zero with a notation that weight gain occurred. Mass loss iseffected

47、by material transfer from one component to another, by genera-tion of oxide films, or by infiltration into porous material by the lubricant,or combinations thereof. If material transfer to the ring is obvious, then aring scar volume should not be calculated from the weight loss measure-ment, but a n

48、otation should be made that material transfer occurred.11. Report11.1 Report any unusual event or an overload shutoff of themachine (on some machines it is possible to have an automaticshutoff at a preset frictional load). If the machine malfunctionsor a test block has a tapered scar, the data shall

49、 not be used, andthe test shall be rerun.11.2 Report the following:11.2.1 Test Parameters:11.2.1.1 Block material and hardness (whenever appli-cable),11.2.1.2 Ring material and hardness (whenever applicable),11.2.1.3 Ring and block initial and final surface roughness,11.2.1.4 Ring rpm,11.2.1.5 Lubricant,11.2.1.6 Test load,11.2.1.7 Test distance (see 14.1), and11.2.1.8 Number of duplicates run for each test condition.TABLE 1 Block Scar Widths and Volumes for Blocks 6.35-mm Wide Mated Against Rings 34.99 mm in DiameterBlock Scar Width(mm)Volume(mm3)Width(mm)Volume(m

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