ASTM E18-2014a 0754 Standard Test Methods for Rockwell Hardness of Metallic Materials《金属材料罗克韦尔硬度的标准试验方法》.pdf

1、Designation: E18 14a An American National StandardStandard Test Methods forRockwell Hardness of Metallic Materials1,2This standard is issued under the fixed designation E18; the number immediately following the designation indicates the year of originaladoption or, in the case of revision, the year

2、of last revision.Anumber in parentheses indicates the year of last reapproval.Asuperscriptepsilon () indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the U.S. Department of Defense.1. Scope*1.1 These test methods cover the det

3、ermination of theRockwell hardness and the Rockwell superficial hardness ofmetallic materials by the Rockwell indentation hardness prin-ciple. This standard provides the requirements for Rockwellhardness machines and the procedures for performing Rock-well hardness tests.1.2 This standard includes a

4、dditional requirements in an-nexes:Verification of Rockwell Hardness Testing Machines Annex A1Rockwell Hardness Standardizing Machines Annex A2Standardization of Rockwell Indenters Annex A3Standardization of Rockwell Hardness Test Blocks Annex A4Guidelines for Determining the Minimum Thickness of aT

5、est PieceAnnex A5Hardness Value Corrections When Testing on ConvexCylindrical SurfacesAnnex A61.3 This standard includes nonmandatory information inappendixes which relates to the Rockwell hardness test.List of ASTM Standards Giving Hardness ValuesCorrespondingto Tensile StrengthAppendix X1Examples

6、of Procedures for Determining RockwellHardness UncertaintyAppendix X21.4 UnitsAt the time the Rockwell hardness test wasdeveloped, the force levels were specified in units ofkilograms-force (kgf) and the indenter ball diameters werespecified in units of inches (in.). This standard specifies theunits

7、 of force and length in the International System of Units(SI); that is, force in Newtons (N) and length in millimeters(mm). However, because of the historical precedent andcontinued common usage, force values in kgf units and balldiameters in inch units are provided for information and muchof the di

8、scussion in this standard refers to these units.1.5 The test principles, testing procedures, and verificationprocedures are essentially identical for both the Rockwell andRockwell superficial hardness tests. The significant differencesbetween the two tests are that the test forces are smaller for th

9、eRockwell superficial test than for the Rockwell test. The sametype and size indenters may be used for either test, dependingon the scale being employed. Accordingly, throughout thisstandard, the term Rockwell will imply both Rockwell andRockwell superficial unless stated otherwise.1.6 This standard

10、 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 limitations prior to use.2. Referenced Documents2.1 ASTM

11、Standards:3A370 Test Methods and Definitions for Mechanical Testingof Steel ProductsA623 Specification for Tin Mill Products, General Require-mentsA623M Specification for Tin Mill Products, General Re-quirements MetricB19 Specification for Cartridge Brass Sheet, Strip, Plate,Bar, and DisksB36/B36M S

12、pecification for Brass Plate, Sheet, Strip, AndRolled BarB96/B96M Specification for Copper-Silicon Alloy Plate,Sheet, Strip, and Rolled Bar for General Purposes andPressure VesselsB103/B103M Specification for Phosphor Bronze Plate,Sheet, Strip, and Rolled BarB121/B121M Specification for Leaded Brass

13、 Plate, Sheet,Strip, and Rolled BarB122/B122M Specification for Copper-Nickel-Tin Alloy,Copper-Nickel-Zinc Alloy (Nickel Silver), and Copper-Nickel Alloy Plate, Sheet, Strip, and Rolled BarB130 Specification for Commercial Bronze Strip for BulletJacketsB134/B134M Specification for Brass Wire1These t

14、est methods are under the jurisdiction of ASTM Committee E28 onMechanical Testing and are the direct responsibility of Subcommittee E28.06 onIndentation Hardness Testing.Current edition approved Oct. 1, 2014. Published November 2014. Originallyapproved in 1932. Last previous edition approved in 2014

15、 as E18 14. DOI:10.1520/E0018-14A.2In this test method, the term Rockwell refers to an internationally recognizedtype of indentation hardness test as defined in Section 3, and not to the hardnesstesting equipment of a particular manufacturer.3For referenced ASTM standards, visit the ASTM website, ww

16、w.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.*A Summary of Changes section appears at the end of this standardCopyright ASTM International, 100 Barr Harbor Drive, P

17、O Box C700, West Conshohocken, PA 19428-2959. United States1B152/B152M Specification for Copper Sheet, Strip, Plate,and Rolled BarB370 Specification for Copper Sheet and Strip for BuildingConstructionE29 Practice for Using Significant Digits in Test Data toDetermine Conformance with SpecificationsE9

18、2 Test Method for Vickers Hardness of Metallic Materials(Withdrawn 2010)4E140 Hardness Conversion Tables for Metals RelationshipAmong Brinell Hardness, Vickers Hardness, RockwellHardness, Superficial Hardness, Knoop Hardness, Sclero-scope Hardness, and Leeb HardnessE384 Test Method for Knoop and Vic

19、kers Hardness ofMaterialsE691 Practice for Conducting an Interlaboratory Study toDetermine the Precision of a Test Method2.2 American Bearings Manufacturer Association Stan-dard:ABMA 10-1989 Metal Balls52.3 ISO Standards:ISO 6508-1 Metallic MaterialsRockwell Hardness TestPart 1: Test Method (scales

20、A, B, C, D, E, F, G, H, K, N,T)6ISO/IEC 17011 Conformity AssessmentGeneral Require-ments for Accreditation Bodies Accrediting ConformityAssessment Bodies6ISO/IEC 17025 General Requirements for the Competenceof Testing and Calibration Laboratories62.4 Society of Automotive Engineers (SAE) Standard:SA

21、E J417 Hardness Tests and Hardness Number Conver-sions73. Terminology and Equations3.1 Definitions:3.1.1 calibrationdetermination of the values of the sig-nificant parameters by comparison with values indicated by areference instrument or by a set of reference standards.3.1.2 verificationchecking or

22、 testing to assure confor-mance with the specification.3.1.3 standardizationto bring in conformance to a knownstandard through verification or calibration.3.1.4 Rockwell hardness testan indentation hardness testusing a verified machine to force a diamond spheroconicalindenter or tungsten carbide (or

23、 steel) ball indenter, underspecified conditions, into the surface of the material under test,and to measure the difference in depth of the indentation as theforce on the indenter is increased from a specified preliminarytest force to a specified total test force and then returned to thepreliminary

24、test force.3.1.5 Rockwell superficial hardness testsame as the Rock-well hardness test except that smaller preliminary and total testforces are used with a shorter depth scale.3.1.6 Rockwell hardness numbera number derived fromthe net increase in the depth of indentation as the force on anindenter i

25、s increased from a specified preliminary test force toa specified total test force and then returned to the preliminarytest force.3.1.7 Rockwell hardness machinea machine capable ofperforming a Rockwell hardness test and/or a Rockwell super-ficial hardness test and displaying the resulting Rockwellh

26、ardness number.3.1.7.1 Rockwell hardness testing machinea Rockwellhardness machine used for general testing purposes.3.1.7.2 Rockwell hardness standardizing machinea Rock-well hardness machine used for the standardization of Rock-well hardness indenters, and for the standardization of Rock-well hard

27、ness test blocks. The standardizing machine differsfrom a regular Rockwell hardness testing machine by havingtighter tolerances on certain parameters.3.2 Equations:3.2.1 The averageHof a set of n hardness measurements H1,H2, , Hnis calculated as:H5H11H211Hnn(1)3.2.2 The error E in the performance of

28、 a Rockwell hard-ness machine at each hardness level, relative to a standardizedscale, is determined as:E 5 H2 HSTD(2)where:H= average of n hardness measurements H1, H2, Hnmade on a standardized test block as part of aperformance verification, andHSTD= certified average hardness value of the standar

29、dizedtest block.3.2.3 The repeatability R in the performance of a Rockwellhardness machine at each hardness level, under the particularverification conditions, is estimated by the range of n hardnessmeasurements made on a standardized test block as part of aperformance verification, defined as:R 5 H

30、max2 Hmin(3)where:Hmax= highest hardness value, andHmin= lowest hardness value.4. Significance and Use4.1 The Rockwell hardness test is an empirical indentationhardness test that can provide useful information about metallicmaterials. This information may correlate to tensile strength,wear resistanc

31、e, ductility, and other physical characteristics ofmetallic materials, and may be useful in quality control andselection of materials.4The last approved version of this historical standard is referenced onwww.astm.org.5Available from American Bearing Manufacturers Association (ABMA), 2025M Street, N

32、W, Suite 800, Washington, DC 20036.6Available from American National Standards Institute (ANSI), 25 W. 43rd St.,4th Floor, New York, NY 10036, http:/www.ansi.org.7Available from Society of Automotive Engineers (SAE), 400 CommonwealthDr., Warrendale, PA 15096-0001, http:/www.sae.org.E18 14a24.2 Rockw

33、ell hardness tests are considered satisfactory foracceptance testing of commercial shipments, and have beenused extensively in industry for this purpose.4.3 Rockwell hardness testing at a specific location on a partmay not represent the physical characteristics of the whole partor end product.4.4 Ad

34、herence to this standard test method provides trace-ability to national Rockwell hardness standards except as statedotherwise.5. Principles of Test and Apparatus5.1 Rockwell Hardness Test PrincipleThe general prin-ciple of the Rockwell indentation hardness test is illustrated inFig. 1. The test is d

35、ivided into three steps of force applicationand removal.Step 1The indenter is brought into contact with the testspecimen, and the preliminary test force F0is applied. Afterholding the preliminary test force for a specified dwell time,the baseline depth of indentation is measured.Step 2The force on t

36、he indenter is increased at acontrolled rate by the additional test force F1to achieve thetotal test force F. The total test force is held for a specifieddwell time.Step 3The additional test force is removed, returning tothe preliminary test force. After holding the preliminary testforce for a speci

37、fied dwell time, the final depth of indentationis measured. The Rockwell hardness value is derived from thedifference h in the final and baseline indentation depths whileunder the preliminary test force. The preliminary test force isremoved and the indenter is removed from the test specimen.5.1.1 Th

38、ere are two general classifications of the Rockwelltest: the Rockwell hardness test and the Rockwell superficialhardness test. The significant difference between the two testclassifications is in the test forces that are used. For theRockwell hardness test, the preliminary test force is 10 kgf (98N)

39、 and the total test forces are 60 kgf (589 N), 100 kgf (981 N),and 150 kgf (1471 N). For the Rockwell superficial hardnesstest, the preliminary test force is 3 kgf (29 N) and the total testforces are 15 kgf (147 N), 30 kgf (294 N), and 45 kgf (441 N).5.1.2 Indenters for the Rockwell hardness test in

40、clude adiamond spheroconical indenter and tungsten carbide ballindenters of specified diameters.5.1.2.1 Steel indenter balls may be used only for testing thinsheet tin mill products specified in Specifications A623 andA623M using the HR15T and HR30T scales with a diamondspot anvil. Testing of this p

41、roduct may give significantlydiffering results using a tungsten carbide ball as compared tohistorical test data using a steel ball.NOTE 1Previous editions of this standard have stated that the steelball was the standard type of Rockwell indenter ball. The tungsten carbideball is considered the stand

42、ard type of Rockwell indenter ball. The use oftungsten carbide balls provide an improvement to the Rockwell hardnesstest because of the tendency of steel balls to flatten with use, which resultsin an erroneously elevated hardness value. The user is cautioned thatRockwell hardness tests comparing the

43、 use of steel and tungsten carbideballs have been shown to give different results. For example, depending onthe material tested and its hardness level, Rockwell B scale tests using atungsten carbide ball indenter have given results approximately oneRockwell point lower than when a steel ball indente

44、r is used.5.1.3 The Rockwell hardness scales are defined by thecombinations of indenter and test forces that may be used. Thestandard Rockwell hardness scales and typical applications ofthe scales are given in Tables 1 and 2. Rockwell hardnessvalues shall be determined and reported in accordance wit

45、h oneof these standard scales.5.2 Calculation of the Rockwell Hardness NumberDuringa Rockwell test, the force on the indenter is increased from apreliminary test force to a total test force, and then returned tothe preliminary test force. The difference in the two indentationdepth measurements, whil

46、e under the preliminary test force, ismeasured as h (see Fig. 1).5.2.1 The unit measurement for h is mm. From the value ofh, the Rockwell hardness number is derived. The Rockwellhardness number is calculated as:5.2.1.1 For scales using a diamond spheroconical indenter(see Tables 1 and 2):Rockwell Ha

47、rdness 5 100 2h0.002(4)Rockwell Superficial Hardness 5 100 2h0.001(5)where h is in mm.5.2.1.2 For scales using a ball indenter (see Tables 1 and 2):Rockwell Hardness 5 130 2h0.002(6)Rockwell Superficial Hardness 5 100 2h0.001(7)where h is in mm.5.2.2 The Rockwell hardness number is an arbitrarynumbe

48、r, which, by method of calculation, results in a highernumber for harder material.5.2.3 Rockwell hardness values shall not be designated by anumber alone because it is necessary to indicate which indenterand forces have been employed in making the test (see Tables1 and 2). Rockwell hardness numbers

49、shall be quoted with ascale symbol representing the indenter and forces used. Thehardness number is followed by the symbol HR and the scaleFIG. 1 Rockwell Hardness Test Method (Schematic Diagram)E18 14a3designation. When a ball indenter is used, the scale designationis followed by the letter “W” to indicate the use of a tungstencarbide ball or the letter “S” to indicate the use of a steel ball(see 5.1.2.1).5.2.3.1 Examples:64 HRC = Rockwell hardness number of 64 on Rockwell C scale81 HR30N = Rockwell superficial hardness number of 81 on the Rockwell3