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本文(ASTM D5487-1998(2002) Standard Test Method for Simulated Drop of Loaded Containers by Shock Machines《使用冲击机进行满载集装箱的模拟跌落用标准试验方法》.pdf)为本站会员(eastlab115)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 D5487-1998(2002) Standard Test Method for Simulated Drop of Loaded Containers by Shock Machines《使用冲击机进行满载集装箱的模拟跌落用标准试验方法》.pdf

1、Designation: D 5487 98 (Reapproved 2002)Standard Test Method forSimulated Drop of Loaded Containers by Shock Machines1This standard is issued under the fixed designation D 5487; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the y

2、ear of last revision. 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 general procedures of usingshock machines to replicate the effects of vertical dro

3、ps ofloaded shipping containers, cylindrical containers, and bagsand sacks.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 determin

4、e the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D 996 Terminology of Packaging and Distribution Environ-mentsD 999 Test Methods for Vibration Testing of ShippingContainersD 3332 Test Methods for Mechanical-Shock Fragility ofProducts, Using Shock

5、 MachinesD 4332 Practice for Conditioning Containers, Packages, orPackaging Components for TestingD 5276 Test Method for Drop Test of Loaded Containers byFree FallE 122 Practice for Calculating Sample Size to Estimate,With a Specified Tolerable Error, the Average for aCharacteristic of a Lot or Proc

6、ess3. Terminology3.1 General terms for packaging and distribution environ-ments are found in Terminology D 996.3.2 Definitions of Terms Specific to This Standard:3.2.1 critical elementthe most fragile component of thetest specimen.33.2.2 shock pulse programmera device used to control theparameters o

7、f the shock pulse and shape of the pulse generatedby the shock test machine.3.2.3 shock test machine drop heightthe distance throughwhich the carriage of the shock test machine free falls beforestriking the shock pulse programmer.3.2.4 velocitythe rate of change of position of a body in aspecified d

8、irection with respect to time, measured in inches persecond or metres per second.4. Significance and Use4.1 Shipping containers and the interior packaging materialsare used to protect their contents from the hazards encounteredin handling, transportation, and storage. Shock is one of themore trouble

9、some of these hazards. Free-fall drop testing,while easy to perform, often understresses the test specimen bysubjecting it to drops which are not perpendicular to thedropping surface.NOTE 1For example, testing has shown that non-perpendicular drops,2 off perpendicularity, result in 8 % lower acceler

10、ation into the testspecimen resulting from the impact energy dispersing in several axes.44.1.1 Controlled shock input by shock machines provides aconvenient method for evaluating the ability of shippingcontainers, interior packaging materials, and contents to with-stand shocks. Simulated free-fall d

11、rop testing of packagesystems, which have critical elements, has produced goodresults where the frequency of the shock pulse is at least threetimes that of the package systems natural frequency.4.2 As in most mechanical shock test procedures, fixturingof the package on the shock test machine may hav

12、e significantinfluence on the test results. Typically, packages will be firmlyheld on the table by securing some type of cross member(s)across the top of the package. Care should be taken that anypressure resulting from such fixturing should be minimal,particularly when the container being tested is

13、 corrugated orsome other similar material.4.2.1 In cases where low-acceleration, long-duration re-sponses are anticipated, any fixturing can potentially influencepackaged item response and can possibly alter any correlation1This test method is under the jurisdiction of ASTM Committee D10 onPackaging

14、 and is the direct responsibility of Subcommittee D10.22 on Physical TestMethods.Current edition approved Oct. 10, 1998. Published March 1999. Originallypublished as D 5487 98. Last previous edition D 5487 98.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Custom

15、er Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3Robert E. Newton, Fragility Assessment Theory and Test Procedures, U. NavalPostgraduate School, Monterey, California.4Fiedler, Robert M. and Fanfu Li,

16、A Study of the Effects of Impact Angles on theShock Levels Experienced by Packaged Products, MTS Systems Corporation. Onfile at ASTM. Request RR:D10-1008.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.between this test method and fr

17、ee-fall drop testing. Where suchcorrelation is desired, the package can be tested without itbeing fixed directly to the table. Note that in such circum-stances, the shipping container can vigorously rebound fromthe table and can, if not otherwise controlled, present a safetyproblem for operators. Fi

18、xing the shipping container to theshock machine table is most often recommended for safety andconvenience, but accuracy and precision of this test methodshould not be compromised by such fixturing.NOTE 2A rigid package system with a natural frequency above 83 Hzrequires a shock pulse shorter than th

19、e 2-ms (nominal) duration currentlyavailable with many of todays shock machines:fs5 1 cycle/ds3 2!fs5 1 cycle/0.002 3 2! 5 250 Hzfp5 fs/3fp5 250 Hz/3 5 83 Hzwhere:ds= shock pulse duration, s,fs= shock pulse frequency, Hz, andfp= package system frequency, which may be determined by TestMethods D 999.

20、Similarly, a shock machine using an input shock pulse duration of 3 mswould only be effective with package system frequencies below 56 Hz.5. Apparatus5.1 Shock Test Machine:5.1.1 The machine shall consist of a flat horizontal testsurface (carriage) of sufficient strength and rigidity to remainflat a

21、nd horizontal under stress developed during the test. Thetest surface shall be guided to fall vertically without rotation ortranslation in other directions.5.1.2 The machine shall incorporate sufficient carriage dropheight to produce shock pulses at the carriage as described in9.1. Drop height contr

22、ol shall be sufficient to control velocitychange reproducibility on the table of 65%.5.1.3 Means shall be provided to prevent secondary shocksby stopping the motion of the carriage after impact.5.2 Instrumentation:5.2.1 Acceleration An accelerometer, a signal condi-tioner, and a data storage apparat

23、us are required to recordvelocity change histories. The accelerometer shall be rigidlyattached to the carriage. The instrumentation system shall havesufficient response to permit measurements to at least 1000 Hz.5.2.2 AccuracyReading to be within 65 % of the actualvalue.5.2.3 Cross-Axis SensitivityL

24、ess than 5 % of the actualvalue.5.2.4 VelocityInstrumentation to measure the shock ta-bles velocity change is required. This may be a device whichelectronically integrates the area under the shock pulse wave-form. Alternatively, it can be measured by a photodiode typedevice which measures the shock

25、table impact and reboundvelocity. Calculation which assumes the shock pulse to be aperfect geometric figure usually is grossly inaccurate andshould not be used.6. Sampling, Test Specimens, and Test Units6.1 The sampling and the number of test specimens dependon the specific purposes and needs of the

26、 testing. Sample sizedetermination in accordance with Practice E 122 or otherestablished statistical procedures is recommended.6.2 When the protective ability of the package is to beevaluated, pack the package with the actual contents for whichit was designed.6.2.1 Where the use of actual contents i

27、s prohibitive becauseof excessive cost or danger, a “dummy” load simulating thecontents with respect to dimensions, center of gravity, momentof inertia, product characteristics such as viscosity, etc., may beused with accelerometers or other indicating mechanisms.6.2.2 Regardless of which procedure

28、is used, close or strapthe container, or both, in the same manner that will be used inpreparing it for shipment.6.3 The procedure for identification of the members of thecontainer shall be in accordance with Test Method D 5276.7. Calibration and Standardization7.1 The accuracy of the test equipment

29、must be verified toensure reliable test data.7.2 Verification of calibrations must be performed on aregular basis to ensure compliance with all accuracy require-ments established in Section 5. Typically, system verification isperformed minimally on an annual basis.7.2.1 In no case shall the time int

30、erval between verificationof calibration exceed 18 months.7.2.2 Regardless of the time interval since the last verifica-tion, testing machines shall be verified immediately afterfunctional repairs, relocation, and whenever there is reason todoubt the accuracy.8. Conditioning8.1 It is recommended tha

31、t atmospheres for conditioning beselected from those in Practice D 4332. Unless otherwisespecified, fiberboard and other paperboard containers shall bepreconditioned and conditioned in accordance with the stan-dard atmosphere specified in Practice D 4332 and tested in thatatmosphere where practical.

32、8.1.1 If 8.1 is not practical, tests should be conducted within15 min of removal from the conditioning atmosphere.9. Procedure9.1 Set up the shock test machine to produce a haversine orhalf sine pulse waveform with a pulse duration not longer than3ms(Note 2). The measured velocity change(impact + re

33、bound) of the shock machine table should beequivalent to the impact velocity for the chosen free-fall dropheight, as calculated using the following formulas:DVT5 Viwhere:Vi=2gh ,DVT= measured table velocity change,Vi= calculated free fall drop impact velocity,g = acceleration due to gravity, 386.4 i

34、n./s2(9.806m/s2), andD 5487 98 (2002)2h = equivalent free fall drop height, in. (m).9.1.1 When rebounding-type shock pulse programmers areused, the shock machine drop height is usually substantiallydifferent from the equivalent free-fall drop height. Provisionshall be made for determining the veloci

35、ty change of the shockmachine table. The velocity change may be determined byusing a photodiode type velocity meter which measures shockmachine table velocity change (impact plus rebound). Anelectronic device which measures acceleration versus time mayalso be used to record the shock wave pulse. Int

36、egrating thearea under the curve, either electronically or by other meanswill result in the total velocity change as a result of the impact(see Fig. 1 in Test Methods D 3332).9.2 Method AUnrestrained Test:9.2.1 Identify the shipping container members in accor-dance with Test Method D 5276.9.2.2 Plac

37、e the shipping container on the center of the shockmachine table. Raise the table to the predetermined machinedrop height, and release the table. Movement of the specimenshould be controlled so that a second impact is prevented.Motorcycle bunge cord netting has been successfully used toprevent test

38、specimens from rebounding from the shockmachine table during impact.NOTE 3Warning: Use caution to prevent injury to the operator anddamage to the unit. This test method should not be used if the shippingcontainer is large, bulky, or highly resilient.9.2.3 Perform one shock test.9.2.4 Examine or func

39、tionally test the product and shippingcontainer to determine if damage has occurred.9.2.5 Continue shock testing until the required membershave been impacted.9.3 Method BRestrained Test Method:9.3.1 Identify the shipping container faces in accordancewith Test Method D 5276.9.3.2 Place the shipping c

40、ontainer on the center of the shockmachine table. Restrain movement of the loaded container sothat the shock pulse is directly transmitted to the test specimen.Raise the table to the predetermined machine drop height andrelease the table.9.3.3 Perform one shock test.9.3.4 Examine or functionally tes

41、t the product and containerto determine if damage has occurred.9.3.5 Continue shock testing until the required members inaccordance with Test Method D 5276 have been impacted.10. Report10.1 Report the following information:10.1.1 Method, if any, of conditioning the shipping con-tainer, the moisture

42、content of the wood, plywood, or fiber-board, if determined, and the results of supplementary tests ofthe materials from which the specimen is made.10.1.2 The dimensions of the container under test:10.1.2.1 Complete structural specifications;10.1.2.2 Materials used;10.1.2.3 Description and specifica

43、tions for blocking andcushioning, if used;10.1.2.4 Spacing, size, and kind of fasteners;10.1.2.5 Method of closing and strapping, if any, and10.1.2.6 Tare and gross masses.10.1.3 Description of the contents of the shipping containerunder test.10.1.4 Description of the apparatus and special instrumen

44、-tation, if used.10.1.5 Description of the prescribed test sequence, identify-ing the member being impacted for each drop (for example, thecorner formed by the manufacturers joint, if applicable, andthe number of drops).10.1.6 Velocity change, free-fall drop height, input shockduration, and the resp

45、onse natural frequency, determined inaccordance with Test Methods D 999, or its shock duration.10.1.7 Number of specimens tested per sample.10.1.8 Detailed record of test on each specimen, includingdamage to the shipping container and contents, together withany other observation which may assist in

46、correctly interpret-ing the results or aids in improving the design of the containeror the method of packing, blocking, or bracing.10.1.9 Dates of last calibration of the test equipment andinstrumentation.10.1.10 Statement listing any deviations from this testmethod.10.1.11 Complete description of a

47、ny fixturing used forpositioning corner and edge drops.11. Precision and Bias11.1 PrecisionThe within-laboratory or repeatability stan-dard deviation is largely dependent on the particular item beingtested. A research report5describes an interlaboratory testprogram of three types of items (in packag

48、es) for a criticalvelocity shock test. The repeatability values standard devia-tions were 6.7, 14.7, and 21.5 in./s (0.17, 0.37, and 0.55 m/s)with corresponding coefficients of variation of 5.7, 7.7, and12.4 %. Other items may have more or less variability. Thebetween-laboratory or reproducibility s

49、tandard deviation was5.7 in./s (0.15 m/s) or a coefficient of variation of 3.2 %.11.2 BiasNo justifiable statement can be made on the biasof this test method since a true value cannot be established byan accepted referee method.12. Keywords12.1 critical element; drop test; packaging container; shock;shock machine; velocity5R. L. Sheehan, Interlaboratory Study, ASTM Subcommittees D10.15, D10.22,3M Packaging Systems Division, October 28, 1985.D 5487 98 (2002)3ASTM International takes no position respecting the validity of any patent rights asserted in connect

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