1、Designation: D 412 06aStandard Test Methods forVulcanized Rubber and Thermoplastic ElastomersTension1This standard is issued under the fixed designation D 412; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revisi
2、on. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon (e) indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1. Scope1.1 These test methods cover procedures used to eva
3、luatethe tensile (tension) properties of vulcanized thermoset rubbersand thermoplastic elastomers. These methods are not appli-cable to ebonite and similar hard, low elongation materials.The methods appear as follows:Test Method ADumbbell and Straight Section SpecimensTest Method BCut Ring Specimens
4、NOTE 1These two different methods do not produce identical results.1.2 The values stated in either SI or non-SI units shall beregarded separately as normative for this standard. The valuesin each system may not be exact equivalents; therefore eachsystem must be used independently, without combining
5、values.1.3 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 regulatory limitations prior to use.2. Refer
6、enced Documents2.1 ASTM Standards:2D 1349 Practice for RubberStandard Temperatures forTestingD 1566 Terminology Relating to RubberD 3182 Practice for RubberMaterials, Equipment, andProcedures for Mixing Standard Compounds and Prepar-ing Standard Vulcanized SheetsD 3183 Practice for RubberPreparation
7、 of Pieces for TestPurposes from ProductsD 3767 Practice for RubberMeasurement of DimensionsD 4483 Practice for Evaluating Precision for Test MethodStandards in the Rubber and Carbon Black ManufacturingIndustriesE4 Practices for Force Verification of Testing Machines2.2 ASTM Adjunct:Cut Ring Specime
8、ns, Method B (D 412)32.3 ISO Standards:ISO 37 Rubber, Vulcanized and Thermoplastic Determina-tion of Tensile Stress-Strain Properties43. Terminology3.1 Definitions:3.1.1 tensile setthe extension remaining after a specimenhas been stretched and allowed to retract in a specified manner,expressed as a
9、percentage of the original length. (D 1566)3.1.2 tensile set-after-breakthe tensile set measured byfitting the two broken dumbbell pieces together at the point ofrupture.3.1.3 tensile strengththe maximum tensile stress appliedin stretching a specimen to rupture. (D 1566)3.1.4 tensile stressa stress
10、applied to stretch a test piece(specimen). (D 1566)3.1.5 tensile stress at-given-elongationthe stress requiredto stretch the uniform cross section of a test specimen to agiven elongation. (D 1566)3.1.6 thermoplastic elastomersa diverse family of rubber-like materials that unlike conventional vulcani
11、zed rubbers canbe processed and recycled like thermoplastic materials.3.1.7 ultimate elongationthe elongation at which ruptureoccurs in the application of continued tensile stress.3.1.8 yield pointthat point on the stress-strain curve, shortof ultimate failure, where the rate of stress with respect
12、tostrain, goes through a zero value and may become negative.(D 1566)1These test methods are under the jurisdiction of ASTM Committee D11 onRubber and are the direct responsibility of Subcommittee D11.10 on PhysicalTesting.Current edition approved Dec. 15, 2006. Published January 2007. Originallyappr
13、oved in 1935. Last previous edition approved in 2006 as D 412 06.2For 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 webs
14、ite.3Detailed drawings are available from ASTM Headquarters, 100 Barr HarborDrive, Conshohocken, PA 19428. Order Adjunct No. ADJD0412.4Available from American National Standards Institute (ANSI), 25 W. 43rd St.,4th Floor, New York, NY 10036.1Copyright ASTM International, 100 Barr Harbor Drive, PO Bo
15、x C700, West Conshohocken, PA 19428-2959, United States.3.1.9 yield strainthe level of strain at the yield point.(D 1566)3.1.10 yield stressthe level of stress at the yield point.(D 1566)4. Summary of Test Method4.1 The determination of tensile properties starts with testpieces taken from the sample
16、 material and includes thepreparation of the specimens and the testing of the specimens.Specimens may be in the shape of dumbbells, rings or straightpieces of uniform cross-sectional area.4.2 Measurements for tensile stress, tensile stress at a givenelongation, tensile strength, yield point, and ult
17、imate elonga-tion are made on specimens that have not been prestressed.Tensile stress, yield point, and tensile strength are based on theoriginal cross-sectional area of a uniform cross-section of thespecimen.4.3 Measurement of tensile set is made after a previouslyunstressed specimen has been exten
18、ded and allowed to retractby a prescribed procedure. Measurement of “set after break” isalso described.5. Significance and Use5.1 All materials and products covered by these test meth-ods must withstand tensile forces for adequate performance incertain applications. These test methods allow for the
19、measure-ment of such tensile properties. However, tensile propertiesalone may not directly relate to the total end use performanceof the product because of the wide range of potential perfor-mance requirements in actual use.5.2 Tensile properties depend both on the material and theconditions of test
20、 (extension rate, temperature, humidity, speci-men geometry, pretest conditioning, etc.); therefore materialsshould be compared only when tested under the same condi-tions.5.3 Temperature and rate of extension may have substantialeffects on tensile properties and therefore should be controlled.These
21、 effects will vary depending on the type of material beingtested.5.4 Tensile set represents residual deformation which ispartly permanent and partly recoverable after stretching andretraction. For this reason, the periods of extension andrecovery (and other conditions of test) must be controlled too
22、btain comparable results.6. Apparatus6.1 Testing MachineTension tests shall be made on apower driven machine equipped to produce a uniform rate ofgrip separation of 500 6 50 mm/min (20 6 2 in./min) for adistance of at least 750 mm (30 in.) (see Note 2). The testingmachine shall have both a suitable
23、dynamometer and anindicating or recording system for measuring the applied forcewithin 62 %. If the capacity range cannot be changed for a test(as in the case of pendulum dynamometers) the applied force atbreak shall be measured within 62 % of the full scale value,and the smallest tensile force meas
24、ured shall be accurate towithin 10 %. If the dynamometer is of the compensating typefor measuring tensile stress directly, means shall be provided toadjust for the cross-sectional area of the specimen. Theresponse of the recorder shall be sufficiently rapid that theapplied force is measured with the
25、 requisite accuracy duringthe extension of the specimen to rupture. If the testing machineis not equipped with a recorder, a device shall be provided thatindicates, after rupture, the maximum force applied duringextension. Testing machine systems shall be capable of mea-suring elongation of the test
26、 specimen in minimum incrementsof 10 %.NOTE 2A rate of elongation of 1000 6 100 mm/min (40 6 4 in./min)may be used and notation of the speed made in the report. In case ofdispute, the test shall be repeated and the rate of elongation shall be at 5006 50 mm/min (20 6 2 in./min).6.2 Test Chamber for E
27、levated and Low TemperaturesThetest chamber shall conform with the following requirements:6.2.1 Air shall be circulated through the chamber at avelocity of 1 to 2 m/s (3.3 to 6.6 ft/s) at the location of the gripsor spindles and specimens maintained within 2C (3.6F) of thespecified temperature.6.2.2
28、 A calibrated sensing device shall be located near thegrips or spindles for measuring the actual temperature.6.2.3 The chamber shall be vented to an exhaust system orto the outside atmosphere to remove fumes liberated at hightemperatures.6.2.4 Provisions shall be made for suspending specimensvertica
29、lly near the grips or spindles for conditioning prior totest. The specimens shall not touch each other or the sides ofthe chamber except for momentary contact when agitated bythe circulating air.6.2.5 Fast acting grips suitable for manipulation at high orlow temperatures may be provided to permit pl
30、acing dumbbellsor straight specimens in the grips in the shortest time possibleto minimize any change in temperature of the chamber.6.2.6 The dynamometer shall be suitable for use at thetemperature of test or it shall be thermally insulated from thechamber.6.2.7 Provision shall be made for measuring
31、 the elongationof specimens in the chamber. If a scale is used to measure theextension between the bench-marks, the scale shall be locatedparallel and close to the grip path during specimen extensionand shall be controlled from outside the chamber.6.3 Dial MicrometerThe dial micrometer shall conform
32、 tothe requirements of Practice D 3767 (Method A). For ringspecimens, see 14.10 of these test methods.6.4 Apparatus for Tensile Set TestThe testing machinedescribed in 6.1 or an apparatus similar to that shown in Fig. 1may be used. A stop watch or other suitable timing devicemeasuring in minute inte
33、rvals for at least 30 min, shall beprovided. A scale or other device shall be provided formeasuring tensile set to within 1 %.7. Selection of Test Specimens7.1 Consider the following information in making selec-tions:7.1.1 Since anisotropy or grain directionality due to flowintroduced during process
34、ing and preparation may have aninfluence on tensile properties, dumbbell or straight specimensshould be cut so the lengthwise direction of the specimen isD 412 06a2parallel to the grain direction when this direction is known.Ring specimens normally give an average of with and acrossthe grain propert
35、ies.7.1.2 Unless otherwise noted, thermoplastic rubber or ther-moplastic elastomer specimens, or both, are to be cut frominjection molded sheets or plaques with a thickness of 3.0 60.3 mm. Specimens of other thickness will not necessarily givecomparable results. Specimens are to be tested in directi
36、onsboth parallel and perpendicular to the direction of flow in themold. Sheet or plaque dimensions must be sufficient to do this.7.1.3 Ring specimens enable elongations to be measured bygrip separation, but the elongation across the radial width ofthe ring specimens is not uniform. To minimize this
37、effect thewidth of the ring specimens must be small compared to thediameter.7.1.4 Straight specimens tend to break in the grips if normalextension-to-break testing is conducted and should be usedonly when it is not feasible to prepare another type ofspecimen. For obtaining non-rupture stress-strain
38、or materialmodulus properties, straight specimens are quite useful.7.1.5 The size of specimen type used will be determined bythe material, test equipment and the sample or piece availablefor test.Alonger specimen may be used for rubbers having lowultimate elongation to improve precision of elongatio
39、n mea-surement.8. Calibration of the Testing Machine8.1 Calibrate the testing machine in accordance with Proce-dure A of Practices E4. If the dynamometer is of thestrain-gauge type, calibrate the tester at one or more forces inFIG. 1 Apparatus for Tensile Set TestD 412 06a3addition to the requiremen
40、ts in Sections 7 and 18 of PracticesE4. Testers having pendulum dynamometers may be calibratedas follows:8.1.1 Place one end of a dumbbell specimen in the uppergrip of the testing machine.8.1.2 Remove the lower grip from the machine and attach it,by means of the gripping mechanism to the dumbbell sp
41、ecimenin the upper grip.8.1.3 Attach a hook to the lower end of the lower specimengrip mechanism.8.1.4 Suspend a known mass from the hook of the lowerspecimen grip mechanism in such a way as to permit the massassembly to temporarily rest on the lower testing machine gripframework or holder (see Note
42、 3).8.1.5 Start the grip separation motor or mechanism, as innormal testing, and allow it to run until the mass is freelysuspended by the specimen in the upper grip.8.1.6 If the dial or scale does not indicate the force applied(or its equivalent in stress for a compensating type tester)within specif
43、ied tolerance, thoroughly inspect the testing ma-chine for malfunction (for example, excess friction in bearingsand other moving parts). Ensure that the mass of the lower gripmechanism and the hook are included as part of the knownmass.8.1.7 After machine friction or other malfunction has beenremove
44、d, recalibrate the testing machine at a minimum of threepoints using known masses to produce forces of approximately10, 20 and 50 % of capacity. If pawls or rachets are used duringroutine testing, use them for calibration. Check for friction inthe head by calibrating with the pawls up.NOTE 3It is ad
45、visable to provide a means for preventing the knownmass from falling to the floor in case the dumbbell should break.8.2 A rapid approximate calibration of the testing machinemay be obtained by using a spring calibration device.9. Test Temperature9.1 Unless otherwise specified, the standard temperatu
46、re fortesting shall be 23 6 2C (73.4 6 3.6F). Specimens shall beconditioned for at least 3 h when the test temperature is 23C(73.4F). If the material is affected by moisture, maintain therelative humidity at 50 6 5 % and condition the specimens forat least 24 h prior to testing. When testing at any
47、othertemperature is required use one of the temperatures listed inPractice D 1349.9.2 For testing at temperatures above 23C (73.4F) preheatspecimens for 10 6 2 min for Method A and for 6 6 2 min forMethod B. Place each specimen in the test chamber at intervalsahead of testing so that all specimens o
48、f a series will be in thechamber the same length of time. The preheat time at elevatedtemperatures must be limited to avoid additional vulcanizationor thermal aging.9.3 For testing at temperatures below 23C (73.4F) condi-tion the specimens at least 10 min prior to testing.TEST METHOD ADUMBBELL AND S
49、TRAIGHTSPECIMENS10. Apparatus10.1 DieThe shape and dimensions of the die for prepar-ing dumbbell specimens shall conform with those shown inFig. 2. The inside faces in the reduced section shall beperpendicular to the plane formed by the cutting edges andpolished for a distance of at least 5 mm (0.2 in.) from thecutting edge. The die shall at all times be sharp and free ofnicks (see 9.2).NOTE 4The condition of the die may be determined by investigatingthe rupture point on any series of broken (ruptured) specimens. Removesuch specimens from the gr
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