1、Designation: C773 88 (Reapproved 2016)Standard Test Method forCompressive (Crushing) Strength of Fired WhitewareMaterials1This standard is issued under the fixed designation C773; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the
2、 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. Scope1.1 This test method covers two test procedures (A and B)for the determination of the compressive strength of fir
3、edwhiteware materials.1.2 Procedure A is generally applicable to whiteware prod-ucts of low- to moderately high-strength levels (up to 150 000psi or 1030 MPa).1.3 Procedure B is specifically devised for testing of high-strength ceramics (over 100 000 psi or 690 MPa).1.4 This standard does not purpor
4、t 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 Standards:2E4 Pr
5、actices for Force Verification of Testing MachinesE6 Terminology Relating to Methods of Mechanical TestingE165 Practice for Liquid Penetrant Examination for GeneralIndustry3. Significance and Use3.1 Resistance to compression is the measure of the greateststrength of a ceramic material. Ideally, cera
6、mics should bestressed this way in use. This test is a measure of the potentialload-bearing usefulness of a ceramic.PROCEDURE A4. Apparatus4.1 Testing MachineAny testing machine conforming toPractices E4 and to the requirements for speed of testingprescribed in Sections 5 and 12 of this test method,
7、 may beused.4.2 Spherical Bearing BlockIn vertical testing machines,the spherical bearing block shall be spring suspended from theupper head of the machine in such a manner that the upperplaten of the machine (lower face of the spherical bearingblock) remains in a central position (spherical surface
8、s in fullcontact) when not loaded. The spherical surfaces shall be welllubricated, and the center of curvature shall lie on the lowerface of the platen. The diagonal or diameter of the platen shallbe only slightly greater than the diagonal of the 112-in.(38.1-mm) square contact blocks to facilitate
9、accurate center-ing of the specimens.4.3 Contact BlocksCold-rolled steel contact blocks shallbe used between the test specimen and the platens of themachine. These blocks shall be 112 in. (38.1 mm) square by58to34 in. (15.9 to 19.1 mm) thick, and the contact faces shall besurface ground until plane
10、and parallel. The contact blocksshall be resurfaced, if necessary, after each strength test, andmay be reused only so long as the thickness remains over12 in.(12.7 mm). If the contact block is cracked during testing, itshall be replaced.4.4 Cushion PadsCushion pads shall be used between thetest spec
11、imens and the contact blocks to aid in distributing theload. New cushion pads shall be used for each specimen.Suitable materials for cushion pads, selected in accordancewith the compressive strength range of the material beingtested, are shown in the following table:Compressive Strength Range, psi (
12、MPa) Cushion Pad5000 to 50 000 incl (34.5 to 345) blotting paper,164 in. (0.4 mm) thickOver 50 000 to 150 000 incl (345 to1030.0)mild steel,132 in. (0.8 mm) thick (65HRB max)1This test method is under the jurisdiction ofASTM Committee C21 on CeramicWhitewares and Related Products and is the direct r
13、esponsibility of SubcommitteeC21.03 on Methods for Whitewares and Environmental Concerns.Current edition approved July 1, 2016. Published July 2016. Originally approvedin 1974 to replace C407 and C528. Last previous edition approved in 2011 asC773 88 (2011). DOI: 10.1520/C0773-88R16.2For referenced
14、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.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Consho
15、hocken, PA 19428-2959. United States15. Procedure5.1 Dye-check specimens in accordance with Test MethodE165 before testing. Discard any pieces exhibiting cracks orflaws visible to the unaided eye.5.2 Clean the test specimens with a suitable solvent aftergrinding and immerse in an ultrasonic bath fil
16、led with hotdetergent solution. Then rinse specimens in hot water, dry at110 6 2C (230 6 4F) for 2 h and cool to room temperaturein a desiccator.5.3 Carefully center the specimen in the machine betweenthe contact blocks. Place an appropriate guard around thespecimen to contain flying fragments at fa
17、ilure; eye protectionshould be used by the operator.5.4 Apply the load continuously and without impact shockuntil ultimate failure. The rate of loading to be used shalldepend on the compressive strength of the material beingtested, as shown in Table 1.6. Calculation6.1 Calculate the compressive stre
18、ngth of each specimen asfollows:C 5 P/A (1)where:C = compressive strength of the specimen, psi or MPa;P = total load on the specimen at failure, lbf or N; andA = calculated area of the bearing surface of the specimen,in.2or mm2.7. Report7.1 Report the following information:7.1.1 The procedure used,7
19、.1.2 Type of testing machine (hydraulic or screw),7.1.3 Material and size of contact blocks or of cushioningmaterials,7.1.4 Description of material being tested (Note 1),7.1.5 Rate of loading,7.1.6 Number of specimens tested,7.1.7 Dimensions and load at failure of each specimen, and7.1.8 Compressive
20、 strength of each specimen tested,rounded off to the nearest 100 psi (1.0 MPa), together with theaverage compressive strength of the sample tested and thestandard deviation.NOTE 1It is desirable to include details of the origin of the specimenand subsequent treatment.8. Precision and Bias8.1 Interla
21、boratory Test DataAn interlaboratory test wasrun in 1979 in which randomly drawn samples of six materialswere tested in each of five laboratories. One operator in eachlaboratory tested ten specimens of each material. The compo-nents of variance for compressive strength results expressed ascoefficien
22、ts of variation were calculated as follows:Single-operator componentBetween-laboratory component1.50 % of the average8.80 % of the average8.2 Critical DifferencesFor the components of variancereported in 8.1, two averages of observed values should beconsidered significantly different at the 95 % pro
23、bability levelif the difference equals or exceeds the following criticaldifferences listed below:Number ofObservations in EachAverageCritical Difference, % of Grand AverageASingle-OperatorPrecisionBetween-LaboratoryPrecision10 4.16 24.40AThe critical differences were calculated using t = 1.960 which
24、 is based on infinitedegrees of freedom.8.3 Confidence LimitsFor the components of variancenoted in 8.1, single averages of observed values have thefollowing 95 % confidence limits:Number ofObservations in EachAverageWidth of 95 % Confidence Limits, Percent of theGrand AverageASingle-OperatorPrecisi
25、onBetween-LaboratoryPrecision10 2.94 17.26AThe confidence limits were calculated using t = 1.960 which is based on infinitedegrees of freedom.8.4 BiasNo statement on bias is being made due to lack ofan accepted standard reference material.9. Test Specimens9.1 PreparationThe test specimens shall be r
26、ight cylin-ders. They may be formed and matured for the purpose ofcompression testing, or they may be cut from matured white-ware by sawing or coredrilling. The ends of all specimens shallbe ground or lapped to yield plane and parallel faces. Thesefaces shall be perpendicular to the axis of the spec
27、imen, andparallel within 15 min of arc (0.044 rad).9.2 SizeThe size of the specimen should be no larger thanto require more than 80 % of the rated capacity of the testingmachine. Examples of specimen size limitations are shown inTable 2.9.3 Number of SpecimensThe number of specimens shallnot be less
28、 than ten.PROCEDURE B10. Apparatus10.1 Testing MachineAny fixed-head testing machineconforming to Practices E4 and to the requirements for speedof testing prescribed in 12.3 may be used. A spherical headmust not be used.TABLE 1 Typical Loading Rates to Cause Failure in 1 minNOTE 1The loading rate of
29、 16 000 lbf/min (70 kN/min) shall be usedfor the first three tests of an unknown material to determine the generalstrength classification group. Some specimens crack before ultimatefailure; the load at which the first audible crack occurs shall be noted, butonly the load on the specimen at ultimate
30、failure shall be used forcalculation of compressive strength.Compressive Strength, psi(MPa)Specimen Diameter, in.(mm)Loading Rate, lbf/min (kN/min)10 000(69) 1.00(25.4) 8000(35)50 000(345) 0.64(16.3) 16 000(70)150 000(1034) 0.45(11.5) 24 000(105)C773 88 (2016)210.2 Bearing PlatesHardened steel 60 HR
31、C bearingplates shall be used between the contact cylinders and theplatens of the machine. These plates shall be approximately 2.5in. (63.5 mm) in diameter by 1 in. (25.4 mm) thick. The contactfaces shall be surface ground until flat and parallel within 0.001in. (0.025 mm) total indicator reading. T
32、he bearing plates shallbe resurfaced as necessary to retain their tolerance and toremove any surface damage resulting from testing high-strength materials.10.3 Contact CylindersCeramic contact cylinders of thesame material as the specimens to be tested shall be usedbetween the bearing plates and the
33、 test specimen to aid indistributing the load and to minimize detrimental “end effects.”These contact cylinders shall be12 in. (12.7 mm) high and58in. (15.9 mm) in diameter. The contact faces shall be flat andparallel to within 0.0005 in. (0.013 mm) total indicator reading.Two new contact cylinders
34、should be used for each specimen toprevent a damaged contact cylinder failing prematurely andthereby giving an erroneous reading. By using contact blocksmade of the same, or similar, material as the test specimenitself there is less deformation and less frictional resistance atthe interfaces.NOTE 2C
35、eramic contact cylinders of similar composition to that ofthe test specimen may be used so long as the contact cylinders have asimilar elastic modulus and equal or higher tensile strength to that of thetest specimen.11. Test Specimens11.1 PreparationGrind the test specimens to right cylin-ders. Grin
36、d the ends of all specimens with a 100-grit or finerdiamond wheel, until parallel and perpendicular to the axis,within 0.0005 in. (0.013 mm) total indicator reading.11.2 Clean the test specimens with a suitable solvent aftergrinding and follow by immersion in an ultrasonic bath filledwith hot deterg
37、ent solution. Then rinse the specimens in hotwater, dry at 110 6 2C (230 6 4F) for 2 h and cool to roomtemperature in a desiccator.NOTE 3In the event that water-sensitive specimens, such as MgO, arebeing cleansed, a substitute for water should be used.11.3 SizeSpecimens shall be 0.250 6 0.001 in. (6
38、.350 60.025 mm) in diameter and 0.500 6 0.002 in. (12.70 6 0.05mm) in length.11.4 Number of SpecimensThe number of test specimensshall be not less than ten.12. Procedure12.1 Dye-check specimens and contact cylinders in accor-dance with Test Method E165 before testing. Discard any partsexhibiting cra
39、cks or flaws visible to the unaided eye.12.2 Center the specimen carefully in the machine betweenthe bearing plates (Fig. 1) to avoid eccentric loading. Place anappropriate guard around the specimen to contain flyingfragments at failure; eye protection should be used by theoperator.12.3 Apply the lo
40、ad continuously and without impact shockat a rate of 10 000 lbf/min (45 kN/min), within 20 %. Use onlythe load on the specimen at ultimate failure for calculation ofthe compressive strength.13. Keywords13.1 compressive strength; fired whiteware materialsTABLE 2 Maximum Specimen Diameter in Inches (M
41、illimetres) toUse 80 % of Rated Capacity of Testing MachineNOTE 1The ratio of length to diameter of the test specimens may varybetween 1.9 and 2.1. Diameters shall be measured to the nearest 0.001 in.(0.03 mm).Maximum CompressiveStrength, psi (MPa)Testing Machine Capacity, lbf (kN)10 000 (44) 20 000
42、 (89) 30 000 (134)in. (mm) in. (mm) in. (mm)10 000(69) 1.0(25.4) 1.43(36.3) 1.75(44.4)50 000(345) 0.45(11.5) 0.64(16.3) 0.78(19.8)150 000(1034) 0.26(6.6) 0.37(9.4) 0.45(11.5)C773 88 (2016)3ASTM International takes no position respecting the validity of any patent rights asserted in connection with a
43、ny item mentionedin this standard. Users of this standard are expressly advised that determination of the validity of any such patent rights, and the riskof infringement of such rights, are entirely their own responsibility.This standard is subject to revision at any time by the responsible technica
44、l committee and must be reviewed every five years andif not revised, either reapproved or withdrawn. Your comments are invited either for revision of this standard or for additional standardsand should be addressed to ASTM International Headquarters. Your comments will receive careful consideration
45、at a meeting of theresponsible technical committee, which you may attend. If you feel that your comments have not received a fair hearing you shouldmake your views known to the ASTM Committee on Standards, at the address shown below.This standard is copyrighted by ASTM International, 100 Barr Harbor
46、 Drive, PO Box C700, West Conshohocken, PA 19428-2959,United States. Individual reprints (single or multiple copies) of this standard may be obtained by contacting ASTM at the aboveaddress or at 610-832-9585 (phone), 610-832-9555 (fax), or serviceastm.org (e-mail); or through the ASTM website(www.astm.org). Permission rights to photocopy the standard may also be secured from the Copyright Clearance Center, 222Rosewood Drive, Danvers, MA 01923, Tel: (978) 646-2600; http:/ 1 Apparatus for Testing Compressive StrengthC773 88 (2016)4
