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本文(ASTM D5662-2016 8901 Standard Test Method for Determining Automotive Gear Oil Compatibility with Typical Oil Seal Elastomers《测定汽车齿轮油与典型油封弹性体兼容性的标准试验方法》.pdf)为本站会员(postpastor181)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 D5662-2016 8901 Standard Test Method for Determining Automotive Gear Oil Compatibility with Typical Oil Seal Elastomers《测定汽车齿轮油与典型油封弹性体兼容性的标准试验方法》.pdf

1、Designation: D5662 16Standard Test Method forDetermining Automotive Gear Oil Compatibility with TypicalOil Seal Elastomers1This standard is issued under the fixed designation D5662; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, t

2、he 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.1. Scope*1.1 This test method2covers the determination of thecompatibility of automotive gear oils with specific nitril

3、e,polyacrylate, and fluoroelastomer oil seal materials.1.2 Users of this test method should obtain Test MethodsD412, D471, and D2240 and become familiar with their usebefore proceeding with this test method.1.3 The values stated in SI units are to be regarded asstandard. No other units of measuremen

4、t are included in thisstandard.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-bility of regulatory limitatio

5、ns prior to use.2. Referenced Documents2.1 ASTM Standards:3D412 Test Methods for Vulcanized Rubber and Thermoplas-tic ElastomersTensionD471 Test Method for Rubber PropertyEffect of LiquidsD2240 Test Method for Rubber PropertyDurometer Hard-nessD5704 Test Method for Evaluation of the Thermal andOxida

6、tive Stability of Lubricating Oils Used for ManualTransmissions and Final Drive AxlesD5760 Specification for Performance of Manual Transmis-sion Gear LubricantsE29 Practice for Using Significant Digits in Test Data toDetermine Conformance with Specifications2.2 SAE Standard:4J2360 Lubricating Oil, G

7、ear Multipurpose (Metric) MilitaryUse3. Terminology3.1 Definitions of Terms Specific to This Standard:3.1.1 dumbbell, nthe specific cut shape (Die C) of anelastomer as explained in the section on dumbbell specimens inTest Methods D412.3.1.2 formulation, nthe specific chemical compositionused in manu

8、facturing a seal elastomer or a reference oil.3.1.3 percent ultimate elongation, nthe stretch length atrupture of an elastomer dumbbell oil-aged by running thisprocedure minus the rupture stretch length of an untesteddumbbell, all divided by rupture stretch length of the untesteddumbbell and then mu

9、ltiplied by 100.3.1.4 percent volume change, nthe change in volume of atest specimen as explained in the procedure for change involume in Test Method D471.4. Summary of Test Method4.1 Non-reference oils are tested using a modified version ofTest Method D471 on specific elastomer compounds. Mea-sured

10、 quantities are percent ultimate elongation changes (fur-ther referred to as just percent elongation changes), durometerType A hardness changes, and percent volume changes. Ref-erence oils are run concurrently in the same oil bath to measureconsistency from one test to another.4.2 The duration of th

11、ese tests is 240 h. The reference oilsare available from the ASTM Test Monitoring Center (TMC).5The seal materials are available through a Central PartsDistributor (CPD).61This test method is under the jurisdiction of ASTM Committee D02 onPetroleum Products, Liquid Fuels, and Lubricants and is the d

12、irect responsibility ofSubcommittee D02.B0.03 on Automotive Gear Lubricants these canbe obtained from theASTM Test Monitoring Center, 6555 PennAve., Pittsburgh, Pa15206-4489. Attention: Administrator. This edition incorporates revisions in allInformation Letters through No. 151.3For referenced ASTM

13、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.4Available from Society of Automotive Engineers (SAE), 400 CommonwealthDr., Warren

14、dale, PA 15096-0001, http:/www.sae.org.5Reference oils are available from theASTMTest Monitoring Center, 6555 PennAve., Pittsburgh, PA 15206-4489.6The Central Parts Distributor for this procedure is Test Engineering Inc., 12758Cimarron Path, Suite 102, San Antonio, TX 78249.*A Summary of Changes sec

15、tion appears at the end of this standardCopyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States15. Significance and Use5.1 There are several major causes of automotive lubricant-related seal failures. This test method addresses only thosefail

16、ures caused by excessive elastomer hardening, elongationloss, and volume swell and attempts to determine the likeli-hood that an oil might cause premature sealing system failuresin field use. This test method may be used as a requirement ofa performance specification, such as Specification D5760 and

17、J2360.5.2 Another major cause of seal failure is the formation ofcarbon, varnish, and sludge-like deposits on the seal lip. Thedeposit-forming characteristics of automotive gear oils areevaluated in Test Method D5704. That procedure is intended inpart to evaluate the potential for oils to cause prem

18、ature sealfailure in field service.6. Apparatus6.1 Specific test equipment as outlined in Test MethodsD412, D471, and D2240 is required.6.1.1 Hardness DurometerSee Test Method D2240.6.1.1.1 CalibrationCalibrate the hardness durometer an-nually. Use an outside source, with standards traceable toNatio

19、nal Institute for Standards Technology (NIST) for annualcalibration. Perform checks with internal standards weekly.Checks with internal standards shall be within 63 points.Calibrate internal standards annually, using an outside source,with standards traceable to NIST.6.1.2 Tension Testing MachineSee

20、 Test Method D412. Setthe testing machine rate of grip separation for the percentelongation change determinations at 8.5 mms 6 0.8 mms.Calibrate the tension testing machine in accordance withmanufacturer7instructions.6.1.2.1 CalibrationCalibrate the tension testing machineannually. The manufacturer

21、shall perform an annualcalibration, using NIST traceable standards.6.1.3 Glass Tubes, having an outside diameter of 38 mm andan overall length of 300 mm. The tube is fitted loosely with analuminum foil-covered stopper.6.1.4 BalanceUse any commercially available balancecapable of weighing samples to

22、the nearest 1.0 mg.6.1.4.1 CalibrationCalibrate the balance annually. Use anoutside source, with standards traceable to NIST for annualcalibration. Perform checks with internal standards monthly,using NIST traceable weights. The difference between theweights and balance shall be 0.5 mg. Calibrate in

23、ternalstandards annually, using an outside source, with standardstraceable to NIST.7. Reagents and Materials7.1 Specific reference test oils are maintained and distrib-uted by the TMC.5To receive the test oils and seal materials,individual laboratories shall commit to furnishing the TMCwith referenc

24、e data developed using these reference materials.7.2 The CPD is responsible for maintaining the numberingand tracking system for the seal elastomer batches used. TheSurveillance Panel is responsible for approval of elastomerbatches (see Appendix X1). Only approved elastomer batchesare to be used for

25、 reference tests and tests run to meet industryspecifications. Certain specific information concerning thesereference materials is available only to the CPD. This infor-mation is used to ensure batch-to-batch consistency.7.2.1 Information and location of the current CPD is alsoavailable from the TMC

26、.7.3 Specific reference seal elastomers used are a nitrile (NI),a polyacrylate (PA), and a fluoroelastomer (FL). Notation ofthe numbering system is established by the TMC as follows:Type Ywhere:Type = NI, PA, FL, andY = Batch number of the particular formulation.7.4 The shelf life for the seal elast

27、omers is two years fromthe date the batch was cured. Invalidate any test with a sealcure date older than two years. Consult the TMC for anyapproved exceptions to this lifespan. Place a note in thecomments section of the test report where exceptions havebeen approved.7.4.1 Store elastomers in a refri

28、gerator maintained at3Cto6C.7.5 The shelf life of reference oils is typically five yearsunless the TMC, through their analysis, specifies otherwise.7.6 Wetting solution of Aerosol OT0.1 % sodium diocytlsulfosuccinate, made by a 1.0 % dilution of a 10 % solutionwith reagent water.8. Procedure8.1 The

29、testing laboratory shall conduct reference oil testsconcurrently with the non-reference oil in the same oil bath.Reference oils shall perform within a specific range prescribedand evaluated by TMC for validity and updated as needed.8.2 Prior to cutting specimens and prior to performingelongation tes

30、ts for initial properties, allow 3 h for the elasto-mer to warm to 23 C 6 2 C, as required by Test MethodD412. Referring to the procedure in Test Method D412, useDie C to cut a set of twelve dumbbell specimens out of theelastomer sheets as required for each reference and non-reference oil tested.8.2

31、.1 Cut the dumbbells parallel to the grain using the sameunaltered dies for the entire lot. When cutting dumbbells, onlycut one thickness at a time to avoid any dimensional variations.8.2.2 Cut all elastomer specimens, including those used formeasuring initial properties, from the same elastomer bat

32、ch.Use these dumbbells for measuring the percent elongationchanges.8.2.3 Next, cut twelve rectangular specimens, 25 mm by50 mm, for the percent volume change and hardness testing;each specimen having a thickness of 1.9 mm 6 0.12 mm.7Trademark of Instron Worldwide. The sole source of supply of the ap

33、paratusknown to the committee at this time is Instron Worldwide Headquarters, 825University Ave., Norwood, MA 020622643. If you are aware of alternativesuppliers, please provide this information to ASTM International Headquarters.Your comments will receive careful consideration at a meeting of the r

34、esponsibletechnical committee,1which you may attend.D5662 1628.2.4 Finally, cut twelve more NI, PA, and FLdumbbells forthe purpose of determining initial elongation properties.8.2.5 Randomly select sets of twelve dumbbells and twelverectangular specimens for testing from the different sheets oftest

35、elastomers.8.2.6 Use the water displacement procedure in accordancewith Test Method D471 to determine the initial volumemeasurements. Weigh the coupon in air, M1, to the nearest1 mg. For the mass in water, immerse the coupon in a 1.0 %wetting solution of aerosol OT, then place the coupon indistilled

36、 water, M2, at ambient temperature. Make sure no airbubbles are clinging to the coupon surface before recording themass to the nearest 1 mg.8.2.7 Ensure that initial elastomer properties of hardnessand volume are determined prior to the start of testing. Initialelongation properties are determined j

37、ust prior to running theend of test dumbbells because of instrument calibration.8.3 Fill the test tubes with 150 mL 6 5 mLof non-referenceor reference oil as appropriate.8.4 Use four test tubes for each elastomer/oil combination.In each tube, suspend from a stainless steel wire hanger bent ata 90 an

38、gle (dimensions shown in Fig. 1) three rectangularspecimens and three dumbbells in each of the four tubes. Placespacers in between the specimens to aid in the separation. Thewidth of the spacer(s) shall be 1.7 mm 6 0.3 mm. The spacermaterial shall not affect the liquid or the rubber.8.4.1 Fig. 2 sho

39、ws the arrangement of spacers and testspecimens.8.4.2 Top the test tube with a stopper wrapped in aluminumfoil.8.4.3 Test the non-reference oil using one or more of thethree different seal elastomers with the same batch of elasto-mers as being used for the reference oil.8.4.4 Place the tubes randoml

40、y in an oil bath capable ofmaintaining a test oil temperature within 61 C for a period of240 h 6 0.5 h (see Table 1).8.4.4.1 Measure the test oil temperature with a thermo-couple or resistance temperature detector (RTD) inside adummy test tube containing bath oil within the oil bath.8.4.4.2 Record t

41、est oil temperature at a minimum of onceevery minute.8.4.4.3 Calculate the percent deviation for the elastomermaterial test oil temperature shown in Table 1 using thefollowing equation. Record the results in the test report.percent deviation 5(i51nSMi0.5R3TiDD3100 (1)Mi = absolute value of the magni

42、tude of the test parameterout of specification limit at occurrence i,R = test parameter specification range,Ti = length of time the test parameter was outside ofspecification range at occurrence i.(Ti is assumed to beno less than the recorded data-acquisition frequency,unless supplemental readings a

43、re documented), andD = test duration in same units as Ti.8.4.4.4 Invalidate any test that exceeds the percent deviationlimits in Table 1.8.4.5 Conduct all reference and non-reference oil testing oneach seal elastomer in the same oil bath. Complete referenceoil and non-reference oil tests for each se

44、al elastomer within8 h of each other to be considered the same test.8.5 At the end of the test period, remove the specimens fromthe hot oil using the wire hanger and place them on a cleanabsorbent towel. Allow the specimens to cool for no longerthan 30 min.8.5.1 Remove the specimens from the wire ha

45、nger, andplace them on a clean absorbent towel. Remove the excess oilwith a clean absorbent towel, and begin testing.8.6 Determine type A hardness testing, percent volume inair and water, and percent elongation, as done in 8.2.6 and8.2.7. Complete testing within2hofremoval from the test oil.FIG. 1 W

46、ire HangerFIG. 2 Test Tube ArrangementTABLE 1 Test Oil TemperaturesMaterial Test Oil Temperature,CPercent DeviationLimitsNitrile 100 1 1 %Polyacrylate 150 1 1 %Fluoroelastomer 150 1 1 %D5662 1638.7 Observe the following notes/modifications to TestMethod D471.8.7.1 Report percent change in elongation

47、 (see Test MethodD412) and percent volume change (see Test Method D471)from the original using the same water displacement proceduredescribed in 8.2.6.8.7.1.1 When using a wire hanger to aid in the weighing ofthe test coupon, deduct the mass of the wire hanger from thegross mass to determine the act

48、ual mass of the test coupon.Record the actual mass of the test coupons in the test report anduse the actual masses for the percent volume change calcula-tions.8.7.1.2 Conduct all reference and non-reference oil testingon each seal elastomer in an oil bath capable of maintaining atest oil temperature

49、 within 61 C for a period of 240 h 6 0.5 h(see Table 1).8.7.2 Report durometer TypeAhardness change points fromoriginal (see Test Method D2240).8.7.2.1 On a hard horizontal surface, stack the three rectan-gular specimens on top of each other to obtain the 6 mmthickness required by Test Method D2240. Take hardnessreadings 1 s after the pin makes contact with the elastomer.Take three readings on each side of the rectangular specimenand report the average of all six readings.8.7.2.2 After taking the first set of measurements, rotate thebottom specimen

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