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本文(ASTM A799 A799M-2010(2015) Standard Practice for Steel Castings Stainless Instrument Calibration for Estimating Ferrite Content《用户评估铁素体含量的钢铸件 不锈钢和仪表校准的标准实施规程》.pdf)为本站会员(terrorscript155)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 A799 A799M-2010(2015) Standard Practice for Steel Castings Stainless Instrument Calibration for Estimating Ferrite Content《用户评估铁素体含量的钢铸件 不锈钢和仪表校准的标准实施规程》.pdf

1、Designation: A799/A799M 10 (Reapproved 2015)Standard Practice forSteel Castings, Stainless, Instrument Calibration, forEstimating Ferrite Content1This standard is issued under the fixed designation A799/A799M; the number immediately following the designation indicates the yearof original adoption or

2、, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval.A superscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope*1.1 This practice covers the procedure for calibration ofinstruments to be used fo

3、r estimating the ferrite content of themicrostructure of cast stainless steels by magnetic response ormeasurement of permeability. This procedure covers bothprimary and secondary instruments.1.1.1 A primary instrument is one that has been calibratedusing National Institute of Standards and Technolog

4、y-StandardReference Material (NIST-SRM) thickness coating standards.It is a laboratory tool to be used with test specimens. Someprimary instruments may be used to directly measure the ferritecontent of castings.1.1.2 A secondary instrument is one that has been calibratedby the use of secondary stand

5、ards that have been measured bya calibrated primary instrument. Secondary instruments are tobe used to directly measure the ferrite content of castings.1.2 The values stated in either SI units or inch-pound unitsare to be regarded separately as standard. The values stated ineach system may not be ex

6、act equivalents; therefore, eachsystem shall be used independently of the other. Combiningvalues from the two systems may result in non-conformancewith the standard.1.2.1 Within the text, the SI units are shown in brackets.1.3 This standard does not purport to address all of thesafety concerns, if a

7、ny, 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 limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2A941 Terminology Relating to Steel, Stainless Ste

8、el, RelatedAlloys, and FerroalloysB499 Test Method for Measurement of Coating Thicknessesby the Magnetic Method: Nonmagnetic Coatings onMagnetic Basis MetalsE562 Test Method for Determining Volume Fraction bySystematic Manual Point Count2.2 NIST Standard:NIST-SRM Coating Thickness StandardsNOTE 1The

9、 specific coating thickness standards previously refer-enced in this practice are no longer available. Similar ones are nowavailable from NIST.3. Terminology3.1 DefinitionsThe definitions in Terminology A941 areapplicable to this standard.3.2 Definitions of Terms Specific to This Standard:3.2.1 ferr

10、ite, nthe body-centered cubic microconstituentin stainless steel.3.2.2 ferrite percentage, na value designating the ferritecontent of stainless steels.3.2.2.1 DiscussionThe Steel Founders Society ofAmerica (SFSA) has assigned ferrite percentages to the seriesof NIST coating thickness standards3. Thi

11、s assignment wasbased on the magnetic attraction for a standard magnet by thecoating standards when compared with the magnetic attractionof the same magnet by a series of cast stainless steels whoseferrite content had been determined by an accurate metallo-graphic point count. A similar assignment b

12、ased on magneticpermeability was also established. Algebraic equations havenow been derived from a plot of the thickness of thesestandards and the assigned ferrite percentages. By the use ofthese equations, any primary instrument will have its calibra-tion traceable to the SFSAs instruments or any o

13、ther calibratedinstrument and thus afford comparable reproducible ferritepercentages. It also allows traceability to NIST.3.2.3 secondary standards, na piece of cast stainless steelwhose ferrite percentage has been determined by a calibratedprimary instrument.1This practice is under the jurisdiction

14、 of ASTM Committee A01 on Steel,Stainless Steel and Related Alloys and is the direct responsibility of SubcommitteeA01.18 on Castings.Current edition approved Nov. 1, 2015. Published November 2015. Originallyapproved in 1982. Last previous edition approved in 2010as A799/A799M 10.DOI: 10.1520/A0799_

15、A0799M-10R152For 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. DOI: 10.1520/A0799_A0799M-04R09.3Aubrey, L.S., W

16、eiser, P.F., Pollard, W.J., and Schoefer, E.A., “ FerriteMeasurement and Control in Cast Duplex Stainless Steels,” Stainless Steel Castings,ASTM STP 756, ASTM, 1982, p 126.*A Summary of Changes section appears at the end of this standardCopyright ASTM International, 100 Barr Harbor Drive, PO Box C70

17、0, West Conshohocken, PA 19428-2959. United States13.2.3.1 DiscussionSecondary statements are used to cali-brate secondary instruments (see Calibration of SecondaryInstruments).4. Significance and Use4.1 The amount of ferrite present in an austenitic stainlesssteel has been shown to influence the st

18、rength, toughness andcorrosion resistance of this type of cast alloy. The amount offerrite present tends to correlate well with the magneticpermeability of the steel. The methods described in thisstandard cover calibration practice for estimating ferrite by themagnetic permeability of the steel. The

19、 practice is inexpensiveto use over large areas of the cast part and is non-destructive.4.2 This practice has been used for research, alloydevelopment, quality control, and manufacturing control.4.2.1 Many instruments are available having differentdesigns, and different principles of operation. When

20、 the probeis placed on the material being investigated, a closed magneticcircuit is formed allowing measurement of the magneticpermeability. When calibrated with standards having knownferrite content, this permeability indicates the ferrite content ofthe material being analyzed. The estimated ferrit

21、e content isread from a calibrated dial or from a digital-readout dial.Follow the manufacturers instructions for proper calibration ofthe instrument.4.3 Since this practice measures magnetic attraction and notferrite directly, it is subject to all of the variables that affectmagnetic permeability, s

22、uch as the shape, size, orientation, andcomposition of the ferrite phase. These in turn are affected bythermal history. Ferrite measurements by magnetic methodshave also been found to be affected by the surface finish of thematerial being analyzed.4.4 Magnetic methods should not be used for arbitrat

23、ion ofconflicts on ferrite content except when agreed upon betweenmanufacturer and purchaser.5. Apparatus5.1 One primary instrument that uses magnetic attractionconsists of a spring-loaded balance arm from which a rod-shaped magnet is suspended.4The opposite end of the balancearm from the magnet has

24、 counterweights that balance most butnot all of the weight of the magnet.5.1.1 When this instrument is used, the spring load isrelaxed sufficiently to allow the magnet to make contact withthe material being tested.5.1.2 The spring is then wound until the force of the coiledspring overcomes the magne

25、tic attraction of the magnet for thematerial being tested, causing the magnet to break contact andthe lever arm to rise.5.1.3 The amount of force that the coiled spring hasdeveloped is determined from a marked dial securely attachedto the shaft that is used to coil or uncoil the spring.5.1.3.1 A wei

26、ghted number 2 magnet (catalog numberJ5-0664W) is used with this instrument.5.2 When using a Feritscope,5follow the manufacturersinstructions for calibration. When traceability is required,confirm the calibration using the appropriate NIST standards.5.2.1 Newer versions of this instrument have a sin

27、gle-pointprobe while older versions have a two-point probe as thesensing device. When this probe is placed on the material beinginvestigated, a closed magnetic circuit is formed and energizedby a low-frequency magnetic field. The voltage induced in theprobe coil by this field is a measure of the per

28、meability. Whencalibrated with standards having known ferrite content, thispermeability indicates the ferrite content of the material beinganalyzed. The estimated ferrite content is read from a cali-brated dial or from a digital-readout dial.5.3 One secondary instrument consists of a balance arm tha

29、thas a rod-shaped magnet attached to one end.6The oppositeend is counterweighted to balance the magnet.5.3.1 This arm with its magnet and counterweight is en-closed in a transparent box. The top face of this container hasa threaded hole directly over the magnet. Marked inserts thathave metal plates

30、on their bottom faces are screwed into thishole. These plates have different strengths of attraction for themagnet.5.3.2 In use, the bottom end of the magnet is touched to thematerial being investigated. The other end of the magnet is incontact with the metal plate on the bottom of the insert. Theco

31、ntainer is then raised. If the material being measured has agreater attraction for the magnet than does the plate on thebottom of the insert, the magnet will be pulled away from theinsert. If not, the magnet will pull away from the material beingmeasured. The inserts are changed and the test repeate

32、d untilthe inserts that are just weaker and just stronger than thematerial being investigated are found.5.3.3 The results of a measurement with this instrument arereported as less than A and greater than B.5.4 NIST-SRM Coating Thickness Standards. These aremild steel plates that are covered by an el

33、ectroplated copperlayer which in turn is covered by a flash coat of chromium. Thethickness of the copper coat varies from standard to standardand is certified by NIST. The strength of the magneticattraction of each standard varies with the thickness of thecoating. These are primary standards for cal

34、ibration.5.5 Other instruments such as the Elcometer7may be used.6. Calibration6.1 Calibrate primary instruments that use magnetic attrac-tion as criterion as follows:6.1.1 When calibrating magnetic instruments, make surethere is no magnetic material within the area that could affectthe calibration.

35、 This includes beneath the surface on which theinstrument rests.6.1.2 MagnetUse weighted standard No. 2 magnet formeasurement of ferrite content of cast stainless steel.4Magne Gage, produced by Magne Gage Sales and Service Co., Inc., 629 PackerStreet, Avoca, PA 18641; http:/www.magne-.5Feritscope, p

36、roduced by Fischer Technology, Inc., 750 Marshall Phelps Road,Windsor, CT 06095; http:/www.fischer-.6Severn Gage, Severn Engineering Co., Old Stage Business Park, 555 Old StageRoad, Suite 1-A, Auburn, AL 36830; http:/.7Elcometer, Elcometer Instruments Ltd., Edge Lane, Manchester, UK M43 6BU;http:/.A

37、799/A799M 10 (2015)26.1.3 ZeroingBefore calibration, zero each primary instru-ment.6.1.3.1 When zeroing the instrument, use the “T”-shapedhandle to lower the spring-loaded balance arm until theplastic-protection cylinder around the magnet is in contact witha nonmagnetic object. The base plate of the

38、 unit is satisfactory.6.1.3.2 Turn the large knurled knob on the central shaftcounter-clockwise to a dead stop.6.1.3.3 Rotate the large knurled knob clockwise until themagnet lifts off the nonmagnetic object and the pivot arm fromwhich the magnet is suspended is parallel to the base plate.Loosen the

39、 set screw holding the black dial in position.6.1.3.4 Set the “0” position on the black dial at the indexposition and tighten the set screw.6.1.4 Determining Black Dial Values for the NIST-SRMThickness StandardsUse the NIST-SRM coating thicknessstandards.6.1.4.1 Insert, one at a time in random order

40、, the variousNIST-SRM coating thickness standards under the plastic pro-tection cylinder. Lower the instrument each time until thecylinder contacts the standard.6.1.4.2 If the magnet is attracted to the plate when theplastic protection cylinder is placed in contact with thestandard, rotate the large

41、 knurled knob clockwise slowly untilthe magnet breaks contact with the standard. Record theblack-dial reading.6.1.4.3 If the magnet is not attracted to the plate when theplastic cylinder comes in contact with the standard, push themagnet into contact by using the push rod located over themagnet. If

42、the magnet does not adhere to the standard, turn thelarge knurled knob counterclockwise a few divisions at a timeuntil the magnet does adhere when it comes in contact with thestandard. When the magnet remains in contact with thestandard, rotate the large knurled knob clockwise slowly untilthe magnet

43、 breaks contact with the standard. Record the blackdial reading.6.1.4.4 Repeat 6.1.4.3 several times, more than three, witheach standard moving the standard under the plastic protectioncylinder after each reading. Take the reading in the central areaof the standard. Average the readings.6.1.4.5 Tabu

44、late the black dial readings and the thickness ofthe coatings on the standards.6.1.5 Preparation of Ferrite Percentage CurveCalculatethe assigned ferrite percentage value for each NIST-SRMcoating thickness used in 6.1.4.3 by using Eq. 1, where F is theassigned ferrite content and T is the coating th

45、ickness asreported by NIST, and the coefficients B0through B4fromTable 1. Round the calculated value to the nearest 0.1 % ferrite.F 5 B01B1T1B2T21B3T31B4T4(1)6.1.5.1 Plot on an arithmetic scale the ferrite percentage foreach standard and the black dial reading obtained for thatstandard. This is the

46、calibration curve for the instrument. It isused to designate the ferrite percentage of any sample mea-sured with the instrument.6.2 Calibrate primary instruments that use magnetic per-meability as criterion as follows:NOTE 2This calibration procedure applies only to the older (pre-1980), analog inst

47、ruments with the two-point probe. Analog instrumentsmay have either an analog meter or a digital meter. Newer (post-1980)instruments with digital readouts or single-point probes must be calibratedusing the procedure given under Calibration of Secondary Instruments.6.2.1 If the instrument has more th

48、an one measuring rangeset the instrument to the desired range.6.2.2 Connect the measuring probe to the instrument.6.2.3 ZeroingBring the needle opposite “0” on the dial bymeans of the “zero” knob. Be sure the probe is at least 1 ft 305mm away from any magnetic material when this adjustment ismade.6.

49、2.4 Calibration of “End of Range”:6.2.4.1 Apply the sensing probe to an NIST-SRM with2.00-mil 51.0 m coating thickness. Using the “end point”control knob, bring the meter needle opposite “29” on themeter. If a digital readout meter is being used, bring themaximum digital reading to “29.”6.2.4.2 If an NIST-SRM with coating thickness other than2.00-mil 51.0-m is used, determine the meter setting to beused from Table 2. It is recommended that coating thickness of3.25 mil 82.5 m or less be us

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