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    ASTM C1716 C1716M-2010 Standard Specification for Compression Testing Machine Requirements for Concrete Masonry Units Related Units and Prisms《混凝土砌块、相关砌块和棱柱体用抗压试验机要求的标准规范》.pdf

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    ASTM C1716 C1716M-2010 Standard Specification for Compression Testing Machine Requirements for Concrete Masonry Units Related Units and Prisms《混凝土砌块、相关砌块和棱柱体用抗压试验机要求的标准规范》.pdf

    1、Designation: C1716/C1716M 10Standard Specification forCompression Testing Machine Requirements for ConcreteMasonry Units, Related Units, and Prisms1This standard is issued under the fixed designation C1716/C1716M; the number immediately following the designation indicates theyear of original adoptio

    2、n or, in the case of revision, the year of last revision. A number in parentheses indicates the year of lastreapproval. A superscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This specification provides minimum design standardsfor testing machines us

    3、ed to measure the compressive strengthof concrete masonry units, related units, and masonry prismscovered under Test Methods C140 and C1314.1.2 The text of this standard references notes and footnoteswhich provide explanatory material. These notes and footnotes(excluding those in tables and figures)

    4、 shall not be consideredas requirements of this standard.1.3 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 exact equivalents; therefore, eachsystem shall be used independently of the other. Combiningvalue

    5、s from the two systems may result in non-conformancewith the standard.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 practices and determine the

    6、 applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2C140 Test Methods for Sampling and Testing ConcreteMasonry Units and Related UnitsC1093 Practice for Accreditation of Testing Agencies forMasonryC1314 Test Method for Compressive Strength of MasonryPris

    7、msE4 Practices for Force Verification of Testing Machines3. Terminology3.1 Definitions:3.1.1 bearing, adjdirect contact with the specimen beingtested, as in bearing plate, bearing block, and bearing platen.3.1.2 block, nsteel piece 50 mm 2 in. thick or greaterthat provides additional load capacity i

    8、n bending to platens.3.1.2.1 DiscussionBlocks may be used to accommodatetesting specimens of various heights in a testing machine.3.1.3 composite, adjmade up of two or more pieces ormaterials.3.1.4 load frame, nall components of the testing machinethat react against forces applied to the test specim

    9、en duringtesting.3.1.5 plate, nsteel piece less than 50 mm 2 in. thick.3.1.5.1 DiscussionPlates are used to accommodate testspecimens of various heights in a testing machine but do notprovide additional load capacity in bending to platens orblocks. Plates can also be used as bearing surfaces.3.1.6 p

    10、laten, nthe primary bearing surfaces of the testingmachine.3.1.6.1 DiscussionPlaten is a general term without spe-cific properties implied. In general, the lower platen is semi-permanently fixed to the testing machine and the upper platenis semi-permanently fixed to a hemispherical thrust bearing.3.

    11、1.7 spacer, nplates, blocks, or equipment and fixturesspecific to a testing machine, used to adjust the position ofbearing surfaces to accommodate test specimens.NOTE 1Plates, blocks or platens used in bearing must be hardened.Spacers do not have to be hardened. Blocks are structural while plates ar

    12、enot.4. Testing Machine Requirements4.1 Machine Loading Requirements:4.1.1 The testing machine must be power operated andapply the load continuously, rather than intermittently, andwithout shock.4.1.2 The machine must be capable of maintaining specificloading rates required by the test. Variations i

    13、n the loading rateover the elastic portion of the test shall not exceed 620 % ofthe set loading rate.4.1.3 The testing machine must be capable of a minimum of50 mm 2 in. of continuous travel or displacement to accom-modate positioning and testing of a specimen.1This specification is under the jurisd

    14、iction of ASTM Committee C15 onManufactured Masonry Units and is the direct responsibility of SubcommitteeC15.04 on Research.Current edition approved June 15, 2010. Published July 2010. DOI: 10.1520/C1716_C1716M-10.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM

    15、Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.4.2 Gauges and DisplaysGauges a

    16、nd displays indicatingloads shall meet the requirements of Practices E4, except in nocase shall the verified force range include forces less than 100times the resolution of the force indicator.4.3 AccuracyThe accuracy and calibration of the testingmachine shall meet the requirements of Practices E4,

    17、 exceptthe testing machine shall be calibrated at the frequencyprescribed in Practice C1093.4.4 Load Frame:4.4.1 Load frames shall have a minimum lateral stiffness of18 3 106N/m 10 3 104lb/in., and a longitudinal stiffness of18 3 108N/m 10 3 106lb/in.4.4.2 Differential longitudinal strain of the loa

    18、d frame due toan eccentric loading shall be limited to 0.0001 mm/mm 0.0001in./in. at the maximum capacity of the machine or the ratedcapacity of the specific test setup. Eccentricity of the load shallbe considered as 5 % of the maximum width of the specimen.See Appendix X1 for a discussion on allowa

    19、ble longitudinalstrain and machine capacity.NOTE 2In testing machines with significant differences in lateralstiffness, the center of mass and center of effort shall lay on the axisperpendicular to the axis of maximum lateral stiffness. Test specimencentroid of compressive strength may not coincide

    20、with its centroid ofmass. Test specimen section aspect ratio affects measured compressivestrength but not mass.4.4.3 If the design of the load frame makes it an integral partof the support against deflection for platens, blocks, or testingheads, the specific parts of the load frame supporting platen

    21、s,blocks, or testing heads shall meet the requirements of 4.9 forflatness, finish, and materials.4.4.4 Testing machines with fixed geometry frames andadjustable geometry frames are permitted.4.5 Plates, Blocks, and Platens:4.5.1 Plates, blocks, and platens shall meet requirements of4.9 for flatness

    22、and surface finish. Surface treatments or platingto reduce corrosion is permitted.4.5.2 Spacer PlateA one piece steel plate, less than 50mm 2 in. in thickness and greater than 11.5 mm 0.45 in. inthickness. Spacer plates shall not be used in direct contact withthe test specimen. Spacer plates provide

    23、 no additional loadcapacity in bending to platens or blocks.4.5.3 Bearing PlateA one piece hardened steel plate, lessthan 50 mm 2 in. in thickness and greater than 11.5 mm 0.45in. in thickness. Bearing plates provide a bearing surface indirect contact with a test specimen. Bearing plates provide noa

    24、dditional load capacity in bending to platens or blocks.4.5.4 Spacer BlockA one piece steel plate, 50 mm 2 in.in thickness or greater. Spacer blocks shall not be used in directcontact with the test specimen.4.5.5 Bearing BlockA one piece hardened steel plate, 50mm 2 in. in thickness or greater, that

    25、 provides a bearingsurface in direct contact with a test specimen. Bearing blocksprovide additional load capacity in bending to platens orblocks.4.5.6 PlatenA one piece steel plate, at least 25 mm 1 in.thick when new and at least 22 mm 0.9 in. thick when inservice. Platens may be unhardened if they

    26、are not used forbearing.NOTE 3Platens 50 mm 2 in. thick or greater act as blocks andbearing capacities in bending are calculated accordingly.4.6 Spacers:4.6.1 Spacers and bearing plates are permitted. Plates,blocks, and spacers are used to adjust the position of bearingsurfaces to accommodate test s

    27、pecimens.NOTE 4Plates and blocks are usually placed between the upper andlower platens to accommodate specimen size while spacers are usuallyplaced between testing heads and the frame of the testing machine.4.6.2 Spacers excluding those provided by the testing ma-chine manufacturer must be construct

    28、ed of steel.4.6.3 Non-ferrous and composite spacers, provided by thetesting machine manufacturer, used between the upper testinghead and the lower platen shall have their load capacity clearlyindicated on the spacer and shall be used with a block orbearing block between the spacer and the test speci

    29、men.NOTE 5The block may be integral to the design of a composite spacer.4.6.4 Spacers placed between the lower platen and lowerbearing block must be a minimum of 6 mm 0.25 in. wider and6 mm 0.25 in. longer than the effective bearing area of thelower platen required for the test, or the length and wi

    30、dth of theplaten, whichever is smaller.4.6.5 Spacers used between the upper and lower platen mustmeet all requirements of 4.9 for flatness and surface finish.4.7 Hemispherical Head Design:4.7.1 The upper platen or bearing surface of the testingmachine shall be supported with a hemispherical thrust b

    31、earingto allow small angular movement of the bearing surface.NOTE 6The preferred design includes a socket and ball hemisphericalsection semi-permanently or permanently attached to a single bearingblock or platen.4.7.2 The ball and the socket shall be designed so that thesteel in the contact area of

    32、the hemispherical bearing does notpermanently deform when loaded to the capacity of the testingmachine or the rated load of the testing head.4.7.3 The curved surfaces of the hemispherical bearingsurface shall be kept clean and shall be lubricated withpetroleum-type oil such as conventional motor oil

    33、 and not withgrease.NOTE 7After contacting the specimen and application of small initialload, further tilting of the spherically seated block is neither intended nordesirable. Spherical bearing blocks that rotate under load may reducemeasured strengths.4.7.4 The upper bearing surface and its attachm

    34、ent to thespherical seat shall be such that the bearing face can be rotatedfreely at least 2 in any direction perpendicular to the axis ofloading.4.7.5 Close contact of the hemispherical bearing surfaces ispreferred. Testing head designs with the surfaces not held inclose contact at all times shall

    35、have suitable alignment fixturesto assure the hemispherical bearing surfaces contact withlateral motion less than 0.75 mm 0.03 in.4.7.6 The radius of the hemispherical bearing shall notextend beyond the bearing face of the upper platen or bearingblock.4.7.7 Hemispherical bearings utilizing non-integ

    36、ral con-struction shall be designed to withstand lateral loads up to 7 %C1716/C1716M 102of the maximum rated capacity of the testing head. Non-integral construction for hemispherical bearings are thosebearing heads with the convex hemispherical bearing sectionmechanically connected to the bearing bl

    37、ock or upper platen,rather than those machined from a single piece of steel.4.7.8 If any portion of the upper platen is less than 50 mm2 in. thick, that portion shall be considered a spacer forcalculations of deflection under load.4.7.9 The bearing surface shall be designed to meet therequirements o

    38、f 4.10 for deflection under load.4.8 Lower Platen Design:4.8.1 If the lower platen is the primary bearing surface, thebearing surface shall be designed to meet the requirements of4.10 for deflection under load.4.8.2 If any portion of the lower platen is less than 50 mm2 in. thick, it shall be consid

    39、ered a spacer for calculations ofdeflection under load.4.9 Prescriptive Design Requirements for Blocks and Plat-ens:4.9.1 The working surfaces of blocks, plates and platensshall be finished to better than RMS (root mean square) 63.Bearing surfaces shall be finished to RMS 30 or better. Top andbottom

    40、 surfaces must be parallel within 60.0005 mm/mm0.0005 in./in. on plates less than 50 mm 2 in. thick and60.0010 mm/mm 0.0010 in./in. on platens and blocks 50 mm2 in. or greater in thickness.4.9.2 The length and width of bearing blocks, plates, andplatens shall be a minimum of 6 mm 0.25 in. larger tha

    41、n thelength and width of the test specimen, respectively.4.9.3 Any surface within 1.2 mm 0.05 in. of an edge isexempt from finish and flatness requirements.4.9.4 Side surfaces not intended for loading are excludedfrom finish requirements.4.9.5 Surfaces shall be flat within 60.0125 mm in 150 mm0.0005

    42、 in. in 6 in. In addition, the entire surface excludingthe edges must be flat within 60.025 mm 0.001 in. If abearing surface is rated to a maximum specimen size, theflatness tolerance applies to the rated working area and therated size must be clearly indicated on the front of the plate,block, or pl

    43、aten. The rated working area shall meet therequirements of 4.9.2.NOTE 8Compliance with flatness tolerances can be determined usinga suitable straight edge and feeler gauge. A 0.025-mm 0.001-in. feelergage should be a no-go gage under a 150-mm 6-in. straight edge on anyportion of the working area. A

    44、0.075-mm 0.003-in. feeler gauge shouldbe a no-go gauge under a straight edge spanning any portion of the ratedworking area. The 0.075-mm 0.003-in. feeler gauge is slightly oversizedto allow for the accuracy of straight edges over 300 mm 12 in. in length.Other suitable methods may be used.4.9.6 All s

    45、urfaces used in bearing must be hardened to aminimum of 60 HRC (HB620). Surface treatments such asplating shall not be used to comply with the surface hardnessrequirements. Plates and blocks with one bearing surface shallhave that surface clearly indicated with permanent markings.NOTE 9 It is prefer

    46、red that bearing plates and bearing blocks have allworking surfaces hardened. It is recommended that bearing surfaces behardened to a depth of 1.5 mm 0.06 in. to allow for resurfacing of thebearing face.4.9.7 Permanent markings designed to aid in positioning ofspecimen and spacers or to indicate rat

    47、ed size that aremachined shall not exceed 0.75 mm 0.03 in. wide by 1.0 mm0.04 in. deep. Permanent markings that are etched shall notexceed 2.5 mm 0.1 in. wide by 0.005 mm 0.0002 in. deep.NOTE 10Markings are allowed, but not required by this standard.Studies have shown that machined markings can affe

    48、ct the results of highstrength specimens.4.9.8 Surfaces with individual scratches larger than 0.25mm 0.010 in. wide by 50 mm 2 in. long, and individualdents with area exceeding 30 mm20.05 in2 (approximately 6mm 0.25 in in diameter), and depth exceeding 0.12 mm0.005 in. shall not be used as bearing s

    49、urfaces. Scratches anddents outside the bearing area of 4.9.2 are excluded.NOTE 11Bearing surfaces with several scratches and or dents shall bereplaced or resurfaced. Best engineering practice must be used to accessthe number, location and significance of imperfections to the bearingsurface.4.9.8.1 Plates and blocks with dents and scratches exceed-ing those permitted by 4.9.8 may be used as spacers providingthey meet all other requirements of 4.9.5.4.9.9 Holes and fea


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