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本文(ASTM D4158-2008 Standard Guide for Abrasion Resistance of Textile Fabrics (Uniform Abrasion)《针织织物耐磨损性的(均匀磨损法)的标准指南》.pdf)为本站会员(孙刚)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 D4158-2008 Standard Guide for Abrasion Resistance of Textile Fabrics (Uniform Abrasion)《针织织物耐磨损性的(均匀磨损法)的标准指南》.pdf

1、Designation: D 4158 08Standard Guide forAbrasion Resistance of Textile Fabrics (Uniform Abrasion)1This standard is issued under the fixed designation D 4158; 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 () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This guide covers the determination of the resistance toabrasion of a wide range of textile materials using the uniformabrasion tes

3、ting instrument. Fabrics of all types includingcarpets, garments and nonwovens may be tested under thismethod.NOTE 1Other procedures for measuring the abrasion resistance oftextile fabrics are given in: Test Methods D 3884, D 3885, D 3886,D 4157, D 4966, and AATCC Test Method 93.1.1.1 Provisions are

4、 provided for testing specimens in dryand wet conditions. Four options for evaluation are included:Option 1Fabric RuptureOption 2Mass LossOption 3Thickness LossOption 4Breaking Strength Loss1.1.2 Provision is provided for testing specimens in the wetstate.1.2 The values stated in either SI units or

5、inch-pound unitsare to be regarded separately as the standard. Within the text,the inch-pound units are shown in parentheses. The valuesstated in each system may not be exact equivalents; therefore,each system shall be used independently of the other. Combin-ing values from the two systems may resul

6、t in nonconformancewith the specification.1.3 This guide does not purport to address all of the safetyconcerns, if any, associated with its use. It is the responsibilityof the user of this standard to establish appropriate safety andhealth practices and determine the applicability of regulatorylimit

7、ations prior to use.2. Referenced Documents2.1 ASTM Standards:2D 123 Terminology Relating to TextilesD 1776 Practice for Conditioning and Testing TextilesD 3884 Guide for Abrasion Resistance of Textile Fabrics(Rotary Platform, Double-Head Method)D 3885 Test Method for Abrasion Resistance of TextileF

8、abrics (Flexing and Abrasion Method)D 3886 Test Method for Abrasion Resistance of TextileFabrics (Inflated Diaphragm Apparatus)D 4157 Test Method for Abrasion Resistance of TextileFabrics (Oscillatory Cylinder Method)D 4850 Terminology Relating to FabricD 4966 Test Method for Abrasion Resistance of

9、TextileFabrics (Martindale Abrasion Tester Method)D 5035 Test Method for Breaking Force and Elongation ofTextile Fabrics (Strip Method)2.2 Other Documents:AATCC Test Method 93, Abrasion Resistance of Fabrics:Accelerator Method33. Terminology3.1 For all terms relating to D13.60, Fabric Test Methods,S

10、pecific, refer to Terminology D 4850.3.1.1 The following terms are relevant to this standard:abrasion ,abrasion cycle, rotation.3.2 For all other terminology related to textiles, see Termi-nology D 123.4. Summary of Test4.1 A specimen is mounted in a holder and abraded uni-formly in all directions i

11、n the plane and about every point ofthe surface of the specimen. The settings of the instrument,method of mounting specimens, conditions of test (conditionedor wet), and criteria to be used in evaluating abrasive wear inthe test, depend upon the nature of the specimen to be testedand the use to be m

12、ade of the test results. Abrasion resistancefor wear is evaluated by one or more conditions of destruction,a defined surface damage, loss in the mass, strength orthickness of test specimens, or by increased weakness in thesample as shown by a subsequent test by another method,depending on the materi

13、al or its intended use.5. Significance and Use5.1 The resistance to abrasion of textile materials is affectedby many factors in a complex manner. The results obtained1This guide is under the jurisdiction of ASTM Committee D13 on Textiles andis the direct responsibility of Subcommittee D13.60 on Fabr

14、ic Test Methods,Specific.Current edition approved June 1, 2008. Published July 2008. Originally approvedin 1982. Last previous edition approved in 2001 as D 4158 01.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Bo

15、ok of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3Available from American Association of Textile Chemists and Colorists, P.O.Box 12215, Research Triangle Park, NC 27709.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Cons

16、hohocken, PA 19428-2959, United States.from the use of this instrument assist in evaluating these factorsrelative to the wear serviceability of the final textile product inspecific end uses. The resistance to abrasion is affected bymany factors that include the inherent mechanical properties ofthe f

17、ibers; the dimensions of the fibers; the structure of theyarns; the construction of the fabrics; the type, kind, amount oftreatment added to the fibers, yarns or fabric; the nature of theabradant; the tension on the specimen; the pressure between thespecimen and the abradant; and the dimensional cha

18、nges in thespecimen. Experience has shown in many instances, thatrelative results obtained with this instrument when used on aseries of fabrics, agreed with those obtained based uponperformance in end use. However, caution is advised becauseanomalous results may occur due to uncontrolled factors inm

19、anufacturing or other processes. Specific instances have beendescribed.4,5,6,7In any event, anomalous results should bestudied to further understand the complex behavior that mayoccur as a result of abrasion that may in turn assist in thedevelopment of more durable fabrics.5.2 Testing some specimens

20、 under “wet” conditions can addanother dimension to the evaluation of some textiles. Suchtesting under “wet” conditions can help ascertain the effect ofchanges in a fabrics resistance to abrasion when it becomeswet. This test can also increase the uniformity of the abradingaction by washing away abr

21、asion debris and preventing thebuild up of broken fibers that can interfere with the properprogression of the tests.5.3 This test is used as a guide in evaluating textiles inquality control and in research.5.3.1 If there are differences of practical significance be-tween reported test results for tw

22、o laboratories (or more),comparative tests should be performed to determine if there isa statistical bias between them, using competent statisticalassistance. As a minimum, the test samples should be used thatare as homogenous as possible, that are drawn from thematerial from which the disparate tes

23、t results were obtained,and that are randomly assigned in equal numbers to eachlaboratory for testing. Other fabrics with established test valuesmay be used for this purpose. The test results from the twolaboratories should be compared using a statistical test forunpaired data, at a probability leve

24、l chosen prior to the testingseries. If a bias is found, either a cause must be found andcorrected, or future test results must be adjusted in consider-ation of the known bias.5.4 This test is unique and is significantly different from anyother existing abrading test.5.5 This guide may also be used

25、as a technique for pretreat-ing material for subsequent testing. For example, a predeter-mined number of abrasion cycles at specified test conditionsmay be performed on a series of specimens, which are thensubjected to a strength or barrier performance test.5.6 The resistance of textile materials to

26、 abrasion as mea-sured by this guide does not include all the factors whichaccount for wear performance or durability in actual use. Whilethe “abrasion resistance” stated in terms of the number ofcycles and “durability” (defined as the ability to withstanddeterioration or wearing out in use, includi

27、ng the effects ofabrasion) are frequently related. The relationship varies withdifferent end uses, and different factors may be necessary inany calculation of predicted durability from specific abrasiondata.5.6.1 Laboratory tests may be reliable as an indication ofrelative end-use suitability in cas

28、es where the difference inabrasion resistance of various materials is large, but theyshould not be relied upon for prediction of performance duringactual wear life for specific end uses unless there are datashowing the specific relationship between laboratory abrasiontests and actual wear in the int

29、ended end use.5.7 The pressure and tension used is varied, depending onthe mass and nature of the material and the end use application.Whenever possible all materials that are to be compared witheach other should be tested under the same pressure andtension.5.8 When abrasion tests are continued to t

30、otal destruction,abrasion resistance comparisons are not practical for fabricshave a different mass because the change in abrasion resistanceis not directly proportional to the change in the fabric mass.5.9 All the guides and instruments that have been developedfor abrasion resistance may show a hig

31、h degree of variability inresults obtained by different operators and in different labora-tories; however, they represent the methods most widely usedin the industry. Because there is a definite need for measuringthe relative resistance to abrasion, this is one of the severalstandardized guides and

32、methods that is useful to help mini-mize the inherent variation in results that may occur.6. Apparatus and Materials6.1 The Uniform Abrasion Tester8, shown in Figs. 1 and 2,consists of an abrading mechanism, specimen supportingmechanism, and driving mechanism. Essentially, the surface ofthe abradant

33、 lies in a plane parallel to the surface supportingthe specimen and presses upon the specimen. The abradant andspecimen rotate in the same direction at very nearly but notquite the same angular velocity (250 rpm) on noncoaxial axeswhich are parallel to within 0.0025 mm (0.0001 in.).6.1.1 The small d

34、ifference in speed is to permit each part ofthe specimen to come in contact with a different part of theabradant at each rotation. Each rotation is equivalent to onecycle.6.1.2 The abrading mechanism consists of the abradantmounted at the lower end of a shaft, weights placed on theupper end of the s

35、haft to produce constant pressure between4Schiefer, H. F. and Krasny, J. F., “Note on the Disintegration of Wool inAbrasion Tests,” Textile Research Journal , Vol 19, January 1950, pp. 802809;Journal of Research, Nat. Bureau Standards, Vol 44, January 1950, pp. 914(Research Paper RP 2054).5Schiefer,

36、 H. F., Crean, L. E. and Krasny, J. F. “Improved Single-Unit SchieferAbrasion Testing Machine,” Journal of Research , Nat. Bureau Standards, Vol 42,May, 1949, pp. 259269. ASTM Bulletin, No. 159, July 1949, pp. 7378 (TP133).6Schiefer, H. F., “Solution of Problem Producing Uniform Abrasion and itsAppl

37、ication to the Testing Machine,” Journal of Research, Nat. Bureau of StandardVol. 39, July 1947 (Research Paper R1807).7Schiefer, H. F., and Werntz, C. W., “Interpretation of Tests for Resistance toAbrasion of Textiles,” Textile Research Journal, Vol XXII No. 1, January 1952.8Apparatus and accessori

38、es are commercially available.D4158082abradant and specimen throughout the test, lever and cam forraising and lowering the abradant, shaft, and weights. Acounterweight for balancing the abradant and abradant shaft isneeded when tests are to be carried out at low pressure.6.1.2.1 Weights, in incremen

39、ts of 500 g (1 lb) that arecapable of providing up to a total of 5 kg (10 lb) to thespecimen in pressure. Individual weight tolerances are 61%.6.1.3 The specimen-supporting mechanism provides fortension mounting of thinner, more flexible materials and rigidmounting of thick, stiff materials. For the

40、 first, a plasticpressure foot 12.5, 25, 31, 38, or 50 mm (12 ,1,114 ,112 ,or2 in.) in diameter, as prescribed, shall be mounted at the upperend of the specimen shaft to fix the area of the specimen to beabraded. A conical clamp seat, fitted to the shaft, rotates with itbut is free to move verticall

41、y on the shaft. A cam is providedfor raising and lowering the clamp seat. The specimen clampshown unassembled in Fig. 3 fits on the seat (C, Fig. 3) and canbe fastened to it by merely rotating it slightly to engage the twopins in the slots. The clamp and specimen assembly can beremoved quickly for e

42、xamining the specimen and measuringthe wear and returned to the machine without unclamping thespecimen. When the clamp seat is lowered by turning the cam,the combined mass of the clamp seat and specimen clamp issuspended by the specimen over the presser foot. This placesthe specimen under constant t

43、ension throughout the test withtake-up of any stretch in the specimen. Different tensions maybe applied to the specimen by changing the mass of the clampseat, for example, by adding auxiliary weights as in 6.1.2.1. Forrigid mounting of thick, stiff fabrics such as carpeting andsome felts use the spe

44、cimen clamp and mounting aids shown inFig. 4. Screw the assembly onto the specimen shaft in place ofthe presser foot and specimen clamp seat (E, Fig. 2).6.1.4 The driving mechanism consists of a motor-drivenauxiliary drive shaft connected to the abradant shaft andspecimen shaft by spur gears.6.1.5 T

45、he instrument shall be equipped with ( 1) a counter(G, Fig. 2) resettable to indicate the number of rotations in atest; (2) a sensitive microswitch (H, Fig. 2) to stop the machineautomatically when a tension-suspended specimen is wornthrough. A thickness gage (I, Fig. 2), when specified, isavailable

46、 to measure changes in thickness of the specimenduring the test.6.1.5.1 Alternately the instrument may be equipped with aprogrammable counter that will stop the instrument uponreaching a preset number of rotations.6.1.6 AbradantShall be sufficiently greater in diameterthan the specimen supporting th

47、e surface that the latter liesentirely inside the periphery of the abradant during a test. Aspring steel blade abradant (B, Fig. 3), which is essentiallyconstant in its action for a long period of use, shall be used forwoven, felted, pile, and knitted fabrics and a cross-cut tungstentool steel blade

48、 abradant (A, Fig. 3) for coated fabrics, unlessotherwise specified in the material specification.6.1.6.1 Abrasion tests are subject to variations due tochanges in the abradant during specific tests. The spring steelblade abradant and the cross-cut tungsten tool steel bladeabradant are considered pe

49、rmanent abradants that have ahardened metal surface. It is assumed that the abradant will notchange appreciably in a specific series of tests, but obviouslysimilar abradants used in different laboratories will not likelychange at the same rate due to differences in usage. Permanentabradants may also change due to pick-up of treatments orother material from test fabrics and must accordingly becleaned at frequent intervals. Consequently, depending upon itsusage, the abradant must be checked periodically against astandard.6.1.6.2 Acetone, or other appropriate solvent to cl

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