1、Designation: D885/D885M 10aStandard Test Methods forTire Cords, Tire Cord Fabrics, and Industrial Filament YarnsMade from Manufactured Organic-Base Fibers1This standard is issued under the fixed designation D885/D885M; the number immediately following the designation indicates the yearof original ad
2、option or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval.A superscript epsilon () 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
3、. Scope1.1 These test methods cover the testing of industrialfilament yarns made wholly of manufactured organic-basefibers, cords twisted from such yarns, fabrics woven from suchcords, and products that are made specifically for use in themanufacture of pneumatic tires. They may be applied to simila
4、ryarns and cords used for reinforcing other rubber goods and forother industrial applications. The test methods apply to nylon,polyester, and rayon yarns and tire cords twisted from suchyarns and to fabrics made from such cords. The yarn or cordmay be wound on cones, tubes, bobbins, spools, or beams
5、; maybe woven into fabric; or may be in some other form. Themethods include testing procedure only and include no speci-fications or tolerances.1.2 No procedure is included for the determination offatigue resistance of cord, but several commonly used proce-dures for the measurement of fatigue resist
6、ance of cords inrubber were published in the appendix of these test methods inthe 1967 Annual Book of ASTM Standards, Part 24, and inearlier issues of Test Methods D885.1.3 The sections on “Growth of Conditioned Yarns andCords,” “Properties of Yarns and Cords at Elevated Tempera-ture,” and “Properti
7、es of Wet Yarns and Cords” have beenmoved to Appendix X1-Appendix X3 as non-mandatory infor-mational items because of their very limited use by the industryand because precision and bias statements are not included.1.4 This standard includes the following sections:SectionAdhesion of Cord to Elastome
8、rs 34Bibliography of Tire Cord Test Methods X5Breaking Strength (Force) of Yarns and Cords at Elevated Tempera-tureX2.3Breaking Strength (Force) of Conditioned Yarns and Cords 16Breaking Strength (Force) of Oven-Dried Rayon Yarns and Cords 23Breaking Strength (Force) of Rayon Yarns and Cords at Spec
9、ifiedMoisture Regain Level, Adjustment of17Breaking Tenacity of Conditioned Yarns and Cords 18Breaking Tenacity of Oven-Dried Rayon Yarns and Cords 24Breaking Toughness of Yarns and Cords 28Commercial Mass 9Conditioning 7Contraction of Wet Yarns and Cords X3Count of Tire Cord Fabric 37Dip (Adhesive)
10、 Solids Pickup on Yarns and Cords 33Elongation at Break of Conditioned Yarns and Cords 19Elongation at Break of Oven-Dried Rayon Yarns and Cords 25Elongation of Rayon Yarns and Cords at a Specified Moisture RegainLevel, Adjustment of Observed20Extractable Matter in Yarns and Cords 32Force at Specifi
11、ed Elongation (FASE) of Conditioned Yarns andCords21Force at Specified Elongation (FASE) of Oven-Dried Rayon Yarns andCords26Growth of Conditioned Yarns and Cords X1Identification of Fibers 8Keywords 40Linear Density 11Mass of per Unit Area of Tire Cord Fabric 36Modulus of Conditioned Yarns and Cord
12、s 22Moisture Regain, Actual 10Precision and Bias of Certain Yarn and Cord Tests 3935 toProperties of Tire Cord Fabric 38Sampling 6Shrinkage Force of Conditioned Yarns and Cords at Elevated Temper-ature X2.5Shrinkage of Conditioned Yarns and Cords at Elevated Temperature X2.4Significance and Use, Gen
13、eral 5Significance and Use, Tensile Properties 14SI Calculations (examples for work-to-break, specific work-to-break,and breaking toughness) X4Stiffness of Fabric 3812 toTensile Properties of Yarns and Cords 28Terminology 3Thickness of Cords 31Twist in Yarns and Cords 30Width of Tire Cord Fabric 35W
14、ork-to-Break of Yarns and Cords 271.5 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, each1These test methods are under the jurisdiction of ASTM Committee D13 onTextiles and ar
15、e the direct responsibility of Subcommittee D13.19 on IndustrialFibers and Metallic Reinforcements.Current edition approved June 1, 2010. Published July 2010. Originally approvedin 1946. Last previous edition approved in 2010 as D885/D885M 10. DOI:10.1520/D0885_D0885M-10A.1Copyright ASTM Internation
16、al, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.system shall be used independently of the other. Combiningvalues from the two systems may result in non-conformancewith the standard.1.6 This standard does not purport to address all of thesafety concerns, if any
17、, 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:2D76 Specification for Tensile Testing Machines for
18、TextilesD123 Terminology Relating to TextilesD276 Test Methods for Identification of Fibers in TextilesD1423 Test Method for Twist in Yarns by Direct-CountingD1776 Practice for Conditioning and Testing TextilesD1777 Test Method for Thickness of Textile MaterialsD1907 Test Method for Linear Density o
19、f Yarn (YarnNumber) by the Skein MethodD1909 Standard Table of Commercial Moisture Regains forTextile FibersD2257 Test Method for Extractable Matter in TextilesD2258 Practice for Sampling Yarn for TestingD2462 Test Method for Moisture in Wool by DistillationWith TolueneD2494 Test Method for Commerci
20、al Mass of a Shipment ofYarn or Manufactured Staple Fiber or TowD2654 Test Method for Moisture in Textiles3D3774 Test Method for Width of Textile FabricD3775 Test Method for Warp (End) and Filling (Pick)Count of Woven FabricsD3776 Test Methods for Mass Per Unit Area (Weight) ofFabricD4393 Test Metho
21、d for Strap Peel Adhesion of ReinforcingCords or Fabrics to Rubber CompoundsD4776 Test Method for Adhesion of Tire Cords and OtherReinforcing Cords to Rubber Compounds by H-Test Pro-cedureD4848 Terminology Related to Force, Deformation andRelated Properties of TextilesD6477 Terminology Relating to T
22、ire Cord, Bead Wire,Hose Reinforcing Wire, and Fabrics3. Terminology3.1 Definitions:3.1.1 For definitions of terms relating to tire cord, bead wire,hose wire, and tire cord fabrics, refer to Terminology D6477.3.1.1.1 The following terms are relevant to this standard:cord, cord twist, dip, dip pickup
23、, in a textile cord or fabric,industrial yarn, moisture equilibrium for testing, for industrialyarns and tire cords, pneumatic tire, single twist, standardatmosphere for testing textiles, tabby sample, tire, and tire cordfabric.3.1.2 For definitions of terms related to force and deforma-tion in text
24、iles, refer to Terminology D4848.3.1.2.1 The following terms are relevant to this standard:breaking force, breaking strength, breaking tenacity. breakingtoughness, chord modulus, in a stress-strain curve, elongation,force at specified elongation (FASE), initial modulus, tensilestrength, and work-to-
25、break.3.1.3 For definitions of other terms related to textiles, referto Terminology D123.3.1.3.1 The following terms are relevant to this standard:fabric and growth.4. Summary of Test Methods, General4.1 A summary of the directions prescribed for the determi-nation of specific properties is stated i
26、n the appropriate sectionsof specific test methods.5. Significance and Use, General5.1 The procedures in these test methods should be usedwith caution for acceptance of commercial shipments owing tothe absence of factual information on the between-laboratoryprecision of many of the test procedures i
27、ncluded in these testmethods. It is recommended that any program of acceptancetesting be preceded by an interlaboratory check in the labora-tory of the purchaser and the laboratory of the supplier onreplicate specimens of the materials to be tested for eachproperty (or properties) to be evaluated.5.
28、1.1 If there are differences of practical significance be-tween reported test results for two laboratories (or more),comparative tests should be performed to determine if there isa statistical bias between them, using competent statisticalassistance. As a minimum, test samples should be used that ar
29、eas homogeneous as possible, that are drawn from the materialfrom which the disparate test results were obtained, and thatare randomly assigned in equal numbers to each laboratory fortesting. Other materials with established test values may beused for this purpose. The test results from the two labo
30、ratoriesshould be compared using a statistical test for unpaired data, ata probability level chosen prior to the testing series. If a bias isfound, either its cause must be found and corrected, or futuretest results must be adjusted in consideration of the knownbias.5.2 The significance and use of p
31、articular properties arediscussed in the appropriate sections of specific test methods.6. Sampling6.1 Yarn:6.1.1 PackagesFor acceptance testing, sample each lot asdirected in Practice D2258. Place each laboratory samplingunit in a moisture-proof polyethylene bag or other moisture-proof container to
32、protect the samples from atmosphericchanges until ready to condition the samples in the atmospherefor testing industrial yarns and tire cords. Take the number ofspecimens for testing specified for the specific property mea-surement to be made.6.1.2 BeamsFor acceptance testing, sample by windingyarns
33、 on a tube or spool by means of a winder using a tensionof 5 6 1 mN/tex 0.05 6 0.01 gf/den. Take the yarn from the2For 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 th
34、e standards Document Summary page onthe ASTM website.3Withdrawn. The last approved version of this historical standard is referencedon www.astm.org.D885/D885M 10a2outside beam layers unless there is a question or disagreementregarding the shipment; in this case, take the sample only afterremoving ya
35、rn from the beam to a radial depth of 6 mm 14in. or more to minimize the effects of handling and atmo-spheric changes that may have occurred during shipment orstorage. Place each laboratory sampling unit in a moisture-proof polyethylene bag or other moisture-proof container toprotect the samples fro
36、m atmospheric changes until ready tocondition the samples in the atmosphere for testing industrialyarns and tire cords. Take the number of specimens for testingspecified for the specific property measurement to be made.6.2 Cord:6.2.1 Number of Samples and SpecimensThe size of anacceptance sampling l
37、ot of tire cord shall be not more than onetruck or rail car load or as determined by agreement betweenthe purchaser and the supplier. Take samples at random fromeach of a number of cones, tubes, bobbins, or spools within alot to be as representative as possible within practical limita-tions. Make on
38、ly one observation on an individual package foreach physical property determination. Take the number ofsamples, therefore, that will be sufficient to cover the totalnumber of specimens required for the determination of allphysical properties of the tire cord. The recommended numberof specimens is in
39、cluded in the appropriate sections of specifictest methods covered in this standard. Where such is notspecified, the number of specimens is as agreed upon betweenbuyer and supplier.6.2.2 Preparation of SamplesRemove and discard a mini-mum of 25 m 25 yd from the outside of the package beforetaking th
40、e sample or any specimens. If specimens are not takendirectly from the original package, preferably wind the sampleon a tube or spool by means of a winder using a tension of 56 1 mN/tex 0.05 6 0.01 gf/den. If the sample is collected asa loosely wound package, or in the form of a skein, someshrinkage
41、 invariably will occur, in which case, report that theobserved results were determined on a relaxed sample. Usecare in handling the sample. Discard any sample subjected toany change of twist, kinking, or making any bend with adiameter less than 10 times the yarn/cord thickness (or diam-eter). Place
42、the sample in a moisture-proof polyethylene bag orother moisture-proof container to protect it from atmosphericchanges until ready to condition the sample in the testatmosphere for industrial yarns and tire cords.6.3 Tire Cord Fabric:6.3.1 Number of Samples and SpecimensThe size of anacceptance samp
43、ling lot of tire cord fabric shall be one loomcreel of cord. Take a sample from at least one roll of fabric perlot. From each roll of tire cord fabric, take the number ofspecimens as specified in the test method for each property tobe measured.6.3.2 Size of SampleTake a sample equal to the length of
44、cord between the regular tabby woven at the end of the roll anda special tabby woven a short distance from the end when theroll of fabric is manufactured. For rolls that do not have aspecial woven tabby, improvise a tabby by the use of gummedtape or strips of cemented fabric applied across a section
45、 of thecord fabric to give a tabby sample length at least 0.5-m 18-in.long and at least one tenth of the roll width wide.6.3.3 Preparation of SamplesCut the warp cords of thefabric along the center line of the special tabby for a distanceequal to the width of the sample. If this distance is less tha
46、n thefull width of the fabric, cut the filling yarns of the sample andof the special and regular tabbies in the direction parallel withthe warp cords. The resulting section of cord fabric is the tabbysample. Attach the tabby sample to a piece of cardboard orfiberboard, the length of which shall be e
47、qual to at least thelength of the cord warp between tabbies. Fold the tabbyportions of the sample over each end of the board, and securethe sample to the board with pressure-sensitive tape or staples.Use care to avoid contact of tape or staples with the area to betested. Handle the sample carefully,
48、 and hold it under sufficienttension in the warp direction to prevent the cords from kinking.Discard any specimen subjected to change of twist, kinking, ormaking any bend with a diameter less than 10 times theyarn/cord thickness (or diameter). The board with the samplemay be folded lengthwise and pa
49、rallel with the warp forconvenience. Place the board with the fabric sample in apolyethylene bag, or wrap it with several layers of polyethyl-ene film, to protect the sample from changes in atmosphericmoisture content until ready to condition the sample in theatmosphere for testing industrial yarns and tire cords. Use careduring subsequent handling of the sample to prevent anychange in the cord twist and to avoid kinking the cords.6.4 Cord from Cured Tires:6.4.1 Number of Samples and SpecimensFor each test,test ten cords from each location or ply of each tire.6.4.
