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本文(ASTM C730-1998(2003) Standard Test Method for Knoop Indentation Hardness of Glass《玻璃的努氏压痕硬度的标准试验方法》.pdf)为本站会员(tireattitude366)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 C730-1998(2003) Standard Test Method for Knoop Indentation Hardness of Glass《玻璃的努氏压痕硬度的标准试验方法》.pdf

1、Designation: C 730 98 (Reapproved 2003)Standard Test Method forKnoop Indentation Hardness of Glass1This standard is issued under the fixed designation C 730; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revision

2、. 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 covers the determination of the Knoopindentation hardness of glass and the verification of Knoopindentation hardn

3、ess testing machines using standard glasses.1.2 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 regulat

4、ory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:E 4 Practices for Force Verification of Testing Machines2E 384 Test Method for Microindentation Hardness of Ma-terials23. Terminology3.1 Descriptions of Terms Specific to This Standard:3.1.1 Knoop hardness number (KHN)a number ob

5、tainedby dividing the applied load in kilograms-force by the pro-jected area of the indentation in square millimetres, computedfrom the measured long diagonal of the indentation and theincluded edge angles of the diamond. It is assumed that theindentation is an imprint of the undeformed indenter.3.1

6、.1.1 The Knoop hardness number (KHN) is computed asfollows:KHN 5 P/Ap!5P/d2Cp! (1)P = load, kgf,Ap= projected area of the indentation, mm2,d = length of the long diagonal of the indentation, mm,Cp=12 (cot A/2 3 tan B/2),A = included longitudinal edge angle (see Fig. 1), andB = included transverse ed

7、ge angle (see Fig. 1).3.1.1.2 Knoop indentation hardness tests in glass are madeat a test load of 100 gf (0.1 kgf).3.1.1.3 The rate of indenter motion prior to contact with thespecimen shall be 0.20 6 0.05 mm/min. This low rate of loadapplication tends to alleviate the effect of the magnitude of the

8、load on Knoop hardness number.3.1.1.4 The indenter should remain in contact with thespecimen between 20 and 30 s. Most of the calibratedmachines that are used for making Knoop hardness tests aredash-pot controlled and this dwell time is consistent with theadjustment of the dash-pot to meet the loadi

9、ng rate standard.3.1.1.5 Table 1 gives the Knoop hardness of several glassesas a function of load when the loading rate and dwell time areheld at the values recommended above.3.1.2 Knoop indentation hardness testan indentationhardness test using a calibrated machine to force a pointed,rhombic-base,

10、pyramidal diamond indenter having specifiedface angles, under a predetermined load, into the surface of thematerial under test and to measure the long diagonal of theresulting impression after removal of the load.NOTE 1A general description of the Knoop indentation hardness testis given in Test Meth

11、od E 384. The present method differs from thisdescription only in areas required by the special nature of glasses.4. Significance and Use4.1 The Knoop indentation hardness is one of many prop-erties that is used to characterize glasses. Attempts have beenmade to relate Knoop indentation hardness to

12、tensile strength,grinding speeds, and other hardness scales, but no generallyaccepted methods are available. Such conversions are limitedin scope and should be used with caution, except for specialcases where a reliable basis for the conversion has beenobtained by comparison tests.5. Apparatus5.1 Te

13、sting Machines:5.1.1 There are two general types of machines available formaking this test. One type is a self-contained unit built for thispurpose, and the other type is an accessory available to existing1This test method is under the jurisdiction of ASTM Committee C14 on Glassand Glass Products an

14、d is the direct responsibility of Subcommittee C14.04 onPhysical and Mechanical Properties.Current edition approved Oct. 10, 1998. Published January 1999. Originallyapproved in 1972. Last previous edition approved in 1995 as C 730 85 (1995)e1.2Annual Book of ASTM Standards, Vol 03.01.1Copyright ASTM

15、 International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.microscopes. Usually, this second type is fitted on an inverted-stage microscope. Good descriptions of the various machinesare available.3,45.1.2 Design of the machine should be such that the loadingr

16、ate, dwell time, and applied load can be standardized withinthe limits set forth in 3.1.1.2-3.1.1.4. It is an advantage toeliminate the human element whenever possible by appropriate3Specifications for Knoop indenters can be found in the book Small, L.,Hardness Theory and Practice (Part I: Practice)

17、, Service Diamond Tool Co., AnnArbor, MI, 1960, pp. 241243.4Mott, B. W., Micro-Indentation Hardness Testing, Butterworths ScientificPublications, London, 1956.FIG. 1 Knoop Indenter Showing Maximum Usable DimensionTABLE 1 Knoop Hardness of NIST Standard and Other GlassesA,BLaboratory NIST 710 NIST 71

18、1 NIST 715GEFusedQuartzNIST 710 NIST 711 NIST 715 GE Fused Quartz25-gf Load 50-gf LoadA 486 411 589 614 497 394 575 559C 594 450 537 415D 479 426 505 541 478 380 538 501E 521 415 608 620 497 392 574 586F 498 414 568 643 484 403 567 577GAvg 516 423 567.5 609.5 499 397 563.5 556Departure, max,%15 6 11

19、 11 8 5 5 10Range, max, % 22 9 18 17 12 9 7 15100-gf Load 200-gf LoadA 475 387 558 554 468 380 550 523C 478 387 554 593 468 371 544 530D 452 368 521 473 433 360 529 474E 490 396 544 530 488 372 546 510F 467 381 538 524 457 367 524 502G 481 388 550 558Avg 474 384.5 544 539 463 370 539 508Departure, m

20、ax,%544126337Range, max, % 8 7 7 22 12 5 5 11ANIST 710NIST standard soda-lime-silica glass (no longer available; NIST 710a may be substituted), NIST 711NIST standard lead-silica glass. NIST 715NISTstandard alkali-free aluminosilicate glass.BThese data were obtained from ASTM round-robin testing.C 73

21、0 98 (2003)2machine design. The machine should be designed so thatvibrations induced at the beginning of a test will be damped outby the time the indenter touches the sample.5.1.3 The calibration of the balance beam should be checkedmonthly or as needed. Indentations in standard glasses are alsoused

22、 to check calibration when needed.5.2 Indenter:5.2.1 The indenter shall meet the specifications for Knoopindenters.4See Test Method E 384.5.2.2 Fig. 1 shows the indenter and its maximum usabledimensions. The diagonals have an approximate ratio of 7:1,and the depth of the indentation is about130 the

23、length of thelong diagonal. A perfect Knoop indenter has the followingangles:5.2.2.1 Included longitudinal angle 172 308 009.5.2.2.2 Included transverse angle 130 008 009.5.2.3 The constant Cpfor a perfect indenter is 0.07028 andthe specifications require a variation of not more than 1 percentfrom t

24、his value.5.3 Measuring MicroscopeThe measurement system shallbe so constructed that the length of the diagonals can bedetermined with errors not exceeding 60.0005 mm. Theapparent length of the diagonal should be corrected for thelimit of resolution of the objective being used in the micro-scope (se

25、e Appendix X1).6. Test Specimen6.1 The Knoop indentation hardness test is adaptable to awide variety of glass specimens, ranging from tubing totelevision faceplates to polished plate glass. In general, theaccuracy of the test will depend on the smoothness of thesurface and, whenever possible, ground

26、 and polished speci-mens should be used. The back of the specimen shall be fixedso that the specimen cannot rock or shift during the test.6.1.1 ThicknessAs long as the specimen is over ten timesas thick as the indentation depth, this will not affect the test. Ingeneral, if specimens are at least 0.1

27、0 mm thick, the hardnesswill not be affected by variations in the thickness.6.1.2 Surface FinishAs pointed out above, the accuracyof the test depends on the surface finish. However, if one isinvestigating a surface coating or treatment, he cannot grindand polish the sample. Experience has shown that

28、 six inden-tations on a ground and polished surface of glass will repro-duce within 61 %. Six indentations on an “as-received”surface may be as bad as 610 %. Ground and polished surfacesshould be used. If this is not possible, the number of indenta-tions should be increased.6.1.3 Radius of Curvature

29、The KHN obtained will beaffected even when the curvature is only in the direction of theshort diagonal. Care should be used when relating KHN valuesobtained on curved surfaces to those obtained on polished flatsurfaces.7. Verification of Apparatus7.1 Verification of LoadMost of the machines availabl

30、efor Knoop hardness testing use a loaded beam. This beamshould be tested for zero load. An indentation should not bevisible with zero load, but the indenter should contact thesample. A visible indentation should be obtained with a load of0.1 gf. Other methods of verifying the load application aregiv

31、en in Practices E 4.7.2 Verification by Standard GlassesTable 1 gives theKnoop hardness of several standard glasses. Knoop hardnessmeasurement on a piece of one of these glasses that has beenground and polished within the last 24 h should agree with thevalue in the table 65 %. Tests should be made u

32、sing 100 gf.8. Procedure8.1 Specimen PlacementPlace the specimen on the stageof the machine in such a way so that the specimen will not beable to rock or shift during the measurement.8.2 Specimen Leveling:8.2.1 The surface of the specimen being tested must lie in aplane normal to the axis of the ind

33、enter. Fig. 2 shows anindentation as it will appear through the microscope with fivepoints labeled. To level the specimen, make a test indentationusing a 100-gf load.8.2.2 The following minimum specifications must be met:OA5OB65%OC5OD65%8.2.3 Leveling the specimen to meet these specifications isfaci

34、litated if one has a leveling device.8.3 Magnitude of Test LoadA test load of 100 gf isspecified. If cracks develop at this load, measurements within50 or 25-gf loads may be made although the Knoop indentationhardness does vary with load. Table 1 gives an indication of themagnitude of this variation

35、 to be expected. In all cases, the loadactually used should be reported.FIG. 2 Sampling Leveling MeasurementsC 730 98 (2003)38.4 Application of Test Load:8.4.1 Start the machine smoothly. If the machine is loadedby an electrical system or a dash-pot lever system, it should bemounted on shock absorbe

36、rs which damp out all vibrations bythe time the indenter touches the specimen. If the specimen ishand-loaded, take extreme care to see that the loading ratenever goes higher than 0.25 mm/min.8.4.2 After the indenter has been in contact with thespecimen for the required dwell time, carefully raise it

37、 off thesample to avoid a vibration impact at this time.8.5 Spacing of IndentationsAllow a distance of at leastthree times the short diagonal between indentations.8.6 Number of IndentationsThe number of indentationswill vary with the type of specimen. For example, if one isinvestigating the hardness

38、 gradient in an ion-exchangedsample, he will make a series on indentations and plot the KHNas a function of distance. In the usual test, one has a piece ofglass that is fairly homogeneous and he is trying to obtain amean KHN for that specimen. In this case, it is recommendedthat at least ten indenta

39、tions be made and that both the meanKHN and the standard deviation be reported. The standarddeviation is:s5=SKHN2KHNn!2/n2! (2)s = standard deviation of a single observation,KHN = mean KHN,KHNn= KHN obtained from nth indentation, andn = number of indentations.9. Measurement of Indentation9.1 The acc

40、uracy of the test method depends to a very largeextent on this measurement, as follows:9.1.1 If the measuring system contains a light source, takecare to use the system only after it has reached equilibriumtemperature. This is because the magnification of a microscopedepends on the tube length.9.1.2

41、 Carefully calibrate the measuring system with a stagemicrometer or, better, with a grating.9.1.3 If either a measuring microscope or a filar micrometeris used, always rotate the drum in the same direction toeliminate backlash errors.9.1.4 Check each reading twice. They should reproduce to60.0002 mm

42、. One filar unit is equal to about 0.0002 mm whena503 objective is used in conjunction with a filar micrometerthat has a millimetre scale and a 100-division drum.9.1.5 Use the same filters in the light system at all times.Usually a green filter is used.10. Conversion of Diagonal Measurement to KHN10

43、.1 Convert the diagonal measurement KHN by usingeither Eq X1.2 or Eq X1.3 of Appendix X1, or prepare tablesusing these equations.11. Report11.1 Report the following:11.1.1 Mean KHN,11.1.2 Test load,11.1.3 Surface conditions and surface preparation,11.1.4 Thermal history of the sample,11.1.5 Number o

44、f indentations, and11.1.6 Standard deviation.12. Precision and Bias12.1 PrecisionOne operator on one testing machine isgenerally 62 % (coefficient of variation) for 100 to 200-gmlevels. Lower load statistics increase the coefficient of variationto 66%.12.2 BiasThe scientific community has avoided no

45、rms forthis property. The data in Table 1 may be referenced forcomparison. These data lend some measure for bias determi-nation, but by no means are intended for absolute reference.13. Keywords13.1 glass; hardness; indentation; KnoopAPPENDIXES(Nonmandatory Information)X1. CALCULATION OF TABLES TO CO

46、NVERT DIAGONAL LENGTHS TO KNOOP HARDNESS NUMBERSX1.1 Equation one given in 3.1.1.1 was:KHN5Pd2Cp(X1.1)where d is the length of the long diagonal of the indentation, inmm. However, in the microscope only part of this diagonal isseen due to the finite resolving power of the light microscope.5d5do17l2N

47、A(X1.2)where:do= apparent length of the long diagonal as measuredwith light microscope, mm,l = wavelength of light, mm, andNA = numerical aperture of objective used in microscope.5The round robin was conducted by Subcommittee C14.04 on Physical andMechanical Properties.C 730 98 (2003)4X1.2 Combining

48、 Eq X1.1 and Eq X1.2:KHN5PSdo17l2NAD2Cp(X1.3)X1.3 It is often convenient to include the conversion fromfilar units to millimetres in the table. In this case, the equationbecomes:KHN5PSLK17l2NAD2Cp(X1.4)where:L = apparent length of the long diagonal in filar units asmeasured with the light microscope

49、, andK = calibration constant, which tells what fraction of amillimetre is represented by a filar unit.X2. ASTM ROUND ROBIN ON STANDARD GLASSESX2.1 The data presented in Table 1 are the results of anASTM round robin on NIST standard and other glasses usingthe procedure given in this test method.5X2.2 The 100 gf numbers can be used for verification inaccordance with 7.2.ASTM International takes no position respecting the validity of any patent rights asserted in connection with any item mentionedin this standard. Users of this standard are expressly advis

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