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本文(ASTM D6200-2001(2007) Standard Test Method for Determination of Cooling Characteristics of Quench Oils by Cooling Curve Analysis《通过冷却曲线分析测定淬火油冷却特性的标准试验方法》.pdf)为本站会员(unhappyhay135)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 D6200-2001(2007) Standard Test Method for Determination of Cooling Characteristics of Quench Oils by Cooling Curve Analysis《通过冷却曲线分析测定淬火油冷却特性的标准试验方法》.pdf

1、Designation: D 6200 01 (Reapproved 2007)An American National StandardStandard Test Method forDetermination of Cooling Characteristics of Quench Oils byCooling Curve Analysis1This standard is issued under the fixed designation D 6200; the number immediately following the designation indicates the yea

2、r oforiginal 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 describes the equipment and theproced

3、ure for evaluation of a quenching oils quenchingcharacteristics by cooling rate determination.1.2 This test is designed to evaluate quenching oils in anon-agitated system. There is no correlation between these testresults and the results obtained in agitated systems.1.3 The values in SI units are to

4、 be regarded as the standard.The values in parenthesis are provided for information only.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 practice

5、s and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D 1744 Test Method for Water in Liquid Petroleum Prod-ucts by Karl Fischer Reagent3E 220 Test Method for Calibration of Thermocouples ByComparison TechniquesE 230 Specification and Te

6、mperature-Electromotive Force(EMF) Tables for Standardized Thermocouples2.2 SAE Standards:4AMS 5665 NickelAlloy Corrosion and Heat Resistant Bars,Forgings and Rings2.3 Japanese Industrial Standards (JIS):5JIS K 2242 - 1980 Heat Treating OilJIS K 6753 - 1977 Di-2-ethylhexyl Phthalate3. Terminology3.1

7、 Definitions of Terms Specific to This Standard:3.1.1 cooling curveThe cooling curve is a graphicalrepresentation of the cooling time (t) - temperature (T) re-sponse of the probe (see 7.3). An example is illustrated in PartBofFig. 1.3.1.2 cooling curve analysisthe process of quantifying thecooling c

8、haracteristics of a heat treating oil based on thetemperature versus time profile obtained by cooling a pre-heated metal probe assembly (see Fig. 2) under standardconditions.3.1.3 cooling rate curveThe cooling rate curve is ob-tained by calculating the first derivative (dT/dt) of the coolingtime - t

9、emperature curve. An example is illustrated in Part B ofFig. 1.3.1.4 heat treating oila hydrocarbon containing product,often derived from petroleum base stock, that is used tomediate heat transfer between heated metal, such as austen-itized steel, to control the microstructure that is formed uponcoo

10、ling and also control distortion and minimize crackingwhich may accompany the cooling process.3.1.5 quench severitythe ability of a quenching mediumto extract heat from a hot metal.64. Summary of Test Method4.1 Determine the nickel alloy probe assemblys coolingtime versus temperature after placing t

11、he assembly in a furnaceand heating to 850C (1562F) and then quenching in a heattreating oil. The temperature inside the probe assembly and thecooling times are recorded at selected time intervals to estab-lish a cooling temperature versus time curve. The resultingcooling curve may be used to evalua

12、te quench severity (seeNote 1).NOTE 1For production testing, the furnace temperature of 815 to857C (1500 to 1575F) may be used.1This test method is under the jurisdiction of ASTM Committee D02 onPetroleum Products and Lubricants and is the direct responsibility of SubcommitteeD02.L0.06 on Nonlubrica

13、ting Process Fluids.Current edition approved May 1, 2007. Published June 2007. Originallyapproved in 1997. Last previous edition approved in 2001 as D 6200 01.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of

14、ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3Withdrawn.4Available from Society of Automotive Engineers (SAE), 400 CommonwealthDr., Warrendale, PA 15096-0001, http:/www.sae.org.5Available from Japanese Standards Organization (JSA), 4-1-24 AkasakaM

15、inato-Ku, Tokyo, 107-8440, Japan, http:/www.jsa.or.ja.6Boyer, H.E. and Cary, P.R., Quenching and Distortion Control, ASM Interna-tional, Materials Park, OH, 1988, p. 162.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.5. Significance

16、 and Use5.1 This test method provides a cooling time versus tem-perature pathway which is directly proportional to physicalproperties such as the hardness obtainable upon quenching ofa metal. The results obtained by this test may be used as a guidein heat treating oil selection or comparison of quen

17、ch severitiesof different heat treating oils, new or used.FIG. 1 Typical Temperature/Time and Temperature/Cooling Rate Plots For Test Probe Cooled in a Quenching OilFIG. 2 Probe Details and General Probe AssemblyD 6200 01 (2007)26. Interferences6.1 The presence of water in a heat treating oil has a

18、majoreffect upon the results obtained with this test method. Watercontent of calibration fluids shall be confirmed by Test MethodD 1744. If water is present above 0.01 %, the calibration fluidshall be dried at a minimum temperature of 102C (216F)until Test Method D 1744 indicates water content at or

19、 below0.01 %.7. Apparatus7.1 FurnaceUse a horizontal or vertical electrical resis-tance tube-type furnace capable of maintaining a constantminimum temperature of 850C (1562F) over a heated lengthof not less than 120 mm (4.72 in.) and a probe positioned in thecenter of the heating chamber. The furnac

20、e shall be capable ofmaintaining the probes temperature within 62.5C (4.5F)over the specimen length. The furnace, that is, the radiant tubeheating media, shall be used with ambient atmosphere.7.2 Measurement SystemThe temperature-time measure-ment system shall be a computer based data acquisition sy

21、stemcapable of providing a permanent record of the coolingcharacteristics of each oil sample tested, producing a record ofvariation in the test probe assembly of temperature with respectto time, and cooling rate with respect to temperature.7.3 ProbeThe probe shall be cylindrical, having a diam-eter

22、of 12.5 60.01 mm (0.492 6 0.0004 in.) and a length of 6060.25 mm (2.362 6 0.01 in.) with a 1.45 to 1.65 mm (0.057to 0.065 in.) sheathed Type K thermocouple in its geometriccenter. The probe shall be made of a nickel alloy 600 (UNSN06600) purchased to SAE SpecificationAMS 5665 which hasa nominal comp

23、osition of 76.0 % Ni, 15.5 % Cr, 8.0 % Fe,.08 % C, and .25 % max Cu. The probe shall be attached to asupport tube with a minimum length of 200 mm (7.874 in.).The thermocouple sheathing and the support tube shall be thesame material as the probe (see Note 2). See Fig. 2 forrecommended manufacturing d

24、etails.NOTE 2Care must be taken that the probe specimen is not damaged assurface irregularities will influence the results of the test.7.4 Transfer MechanismOne of the following shall beused to transfer the heated probe from the furnace to the testfluid.7.4.1 Automated Transfer MechanismThe transfer

25、 fromthe furnace to the oil shall be completed within 3.0 s. Immersethe probe in the center, 0 to 5 mm (0 to 0.197 in.), of the heattreating oil container to a depth where there is 50 6 2mm(1.97 6 0.08 in.) of fluid above and below the probe whenquenched. A mechanical stop shall be used for reproduc

26、ibilityof probe placement.7.4.2 Manual TransferIf manual transfer is used, thesample container shall be equipped with a fixture to ensurecorrect placement in the center of the heat treating oil containerand to the depth defined in 7.4.1. A timer shall be used toensure a maximum transfer time of 3.0

27、s.7.5 Sample ContainerA container, preferably a damage-resistant, tall form vessel having an internal diameter of 115 65 mm (4.528 6 0.197 in.) shall be selected to provide 50 mL(1.97 in.) of fluid above and below the probe when quenched.It is recommended that 2000 6 50 mL of oil be used. Theresulti

28、ng cooling curve will be dependent on the temperaturerise during the quench and on the total fluid volume. Therefore,the cooling curve analysis shall be performed with the samevolume of fluid.7.6 Oil Temperature MeasurementAny temperature de-tection device may be used that is capable of measuring oi

29、ltemperature to within 61C (1.8F) during drying.7.7 TimerGraduated in seconds and minutes, and may bepart of a computer clock.8. Reagents and Materials8.1 Reference Quenching FluidA reference quenchingfluid shall be used for initial and regular system calibration.The primary reference fluid, as desc

30、ribed in the WolfsonEngineering Group Specification7, exhibits the following cool-ing characteristics:Time to cool to 600C (1112F) 12 - 14 sTime to cool to 400C (752F) 19 - 21 sTime to cool to 200C (392F) 50 - 55 sCooling rate, max 47 - 53C/s (85-95F/s)Temperature of the maximum cooling rate 490 - 5

31、30C (914-986F)Cooling rate at 300C (572F) 6 - 8C/s (10.8-14.4F/s)8.1.1 These characteristics are based on quenching a 2000650 mL volume of the primary reference fluid in the samplecontainer described in 7.5 according to the procedure outlinedin Section 13.8.1.2 A secondary reference fluid, such as J

32、IS StandardsK 2242 and K 6753, may be used, provided that sufficientstatistical cooling curve testing has been conducted so thatresults are traceable to the six cooling characteristics of theprimary reference fluid.8.1.3 The reference fluids shall be stored in a sealedcontainer when not in use and s

33、hall be replaced after 200quenches or two years, whichever is sooner.8.2 Cleaning SolventA hydrocarbon solvent that willevaporate at room temperature, leaving no residue (Warning -Flammable. Harmful if inhaled.).8.3 Polishing Paper, 600 grit Emery.8.4 Cloth, lintless and absorbent.9. Cleaning and Co

34、nditioning9.1 Cleaning Used ProbesWipe probe with a lintlesscloth or absorbent paper after removal from the oil and prior toreturning to the furnace. (WarningThe probe shall alwaysbe considered hot, as temperature below visual hot tempera-tures can still cause injury to the skin (WarningDo not usecl

35、eaning solvent near the furnace opening especially withautomated transfer mechanisms.).) A cleaning solvent may beused, but care should be taken that the probe is below 50C(122F).9.2 Conditioning New ProbesCondition the probe prior toits initial use with any quenchant by carrying out a minimumof six

36、 trial quenches, or a greater number if required to achieveconsistency, using a general purpose hydrocarbon oil. Consis-tency shall mean the last two tests shall have maximum coolingrates within 62 % in temperature and cooling rate. Clean the7Available from Wolfson Heat Treatment Centre, Aston Unive

37、rsity, AstonTriangle, Birmingham B4 7ET, England.D 6200 01 (2007)3probe assembly between quenches as specified in 9.1. Quenchthe probe in the reference quenching fluid and check accordingto 12.3. If the probe does not meet the requirements of 12.3,recondition according to 9.3 and then recalibrate ag

38、ain accord-ing to 12.3. Do not use probes that do not meet theserequirements.9.3 Probe ReconditioningThe probe shall be recondi-tioned when the probe calibration according to 12.3 does notmeet the calibration limits, of the reference fluid. Reconditionthe probe by cleaning with emery paper. Although

39、 coarser320-grit paper may be used for initial cleaning, the final finishshall be provided using 600-grit emery paper. Following thissurface cleaning procedure, the probe shall be quenched untilrepeatable cooling curve results of a reference oil are obtained.9.3.1 An alternative is to recondition th

40、e probe after everyrun. Before testing a set of heat treating oils, the probe isquenched into the reference fluid after surface conditioning. Ifthe results comply with the limits prescribed for the referencefluid, the probe may be used for further testing. When testing,the probe is cleaned prior to

41、each run. After testing of the setof fluids is completed, the probe is quenched into the referencefluid to ensure that it is still within calibration.10. Sampling10.1 Sampling shall be in accordance with 7.5. Ensure thesample is representative of the oil being tested.Aclean and drysample container s

42、hall be used.11. Preparation of Apparatus11.1 Preheat furnace to 850 6 2C (1562 6 4F), (1500 to1575F).11.2 Connect a dry, conditioned, calibrated probe to thetransfer mechanism according to equipment manufacturersinstructions.11.3 Heat fluid to the desired temperature, if productiontesting is being

43、performed or to 40 6 1C (104 6 1.8F) if thereference quenching fluid is being tested. Continuously agitatethe test sample when heating and remove stirring mechanismprior to start of test.12. Calibration and Standardization12.1 Probe:12.1.1 Check the accuracy of the probe thermocouple byattaching a p

44、reviously calibrated thermocouple to the outersurface of the probe. Locate the tip of the calibrated thermo-couple 30 mm (1.181 in.) from the end of the probe. Heat theprobe and calibrated thermocouple to the selected furnacetemperature of 850 6 2C (1562 6 4F) and allow to equalize.Compare the outpu

45、ts of both the furnace and probe thermo-couples by any calibrated temperature measuring device ca-pable of required accuracy as described in Specifications E 220and E 230.12.1.2 Frequency of Probe CalibrationCalibrate theprobe against a reference quenching fluid before each set of testruns.12.2 Equi

46、pment CalibrationCalibrate desired recordingmechanism as described in Annex A1.12.3 Total System CalibrationCalibrate the system with areference quenching fluid (see 8.1) following the proceduredescribed in Section 13. Calibrate the system prior to using anew probe for testing and before and after e

47、ach new set of testruns. The limits of the results obtained on the reference fluidwill be established for each reference fluid prior to use asdescribed in 8.1. The limits shall include, as a minimum, thefollowing values: maximum cooling rate (C/s, F/s), thetemperature at the maximum cooling rate (C,

48、 F), cooling rate(C/s, F/s) at 300C (572F), and the time in seconds fromimmersion to three different temperatures such as: (a) 600C(1112F), (b) 400C (752F), and (c) 200C (392F). If theresults deviate from the limits prescribed for each of the sixcooling characteristics of the reference fluid (8.1),

49、the systemshall not be considered as being in calibration. The probe mayneed to be reconditioned (see 9.3). Alternatively, when resultsdeviate from the prescribed limits, it is also appropriate toexamine the test setup and procedure for compliance to thisstandard and the manufacturers recommended practice.13. Procedure13.1 Place the probe in the preheated furnace. Bring theprobe temperature to the required temperature of 850 6 2C,(1562 6 4F) and soak at this temperature for at least 2 min.13.2 Trans

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