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本文(ASTM F2333-2004(2011) Standard Test Method for Traction Characteristics of the Athletic Shoe&ndash Sports Surface Interface《运动鞋鞋面拉伸特性的标准试验方法》.pdf)为本站会员(orderah291)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 F2333-2004(2011) Standard Test Method for Traction Characteristics of the Athletic Shoe&ndash Sports Surface Interface《运动鞋鞋面拉伸特性的标准试验方法》.pdf

1、Designation: F2333 04 (Reapproved 2011)An American National StandardStandard Test Method forTraction Characteristics of the Athletic ShoeSports SurfaceInterface1This standard is issued under the fixed designation F2333; the number immediately following the designation indicates the year oforiginal a

2、doption or, in the case of revision, the year of last revision. 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 test method covers specifications for the perfor-mance of sports

3、 shoe-surface traction measuring devices, butdoes not require a specific device or mechanism to be used.Figs. 1 and 2 show schematic diagrams of generic apparatus.1.2 This test method is appropriate for measuring the effectsof athletic shoe outsole design and materials on traction at theshoe-surface

4、 interface.1.3 This test method is appropriate for measuring the effectsof sport surface design and materials on traction at theshoe-surface interface.1.4 This test method specifies test procedures that areappropriate for both field and laboratory testing.1.5 Traction characteristics measured by thi

5、s test methodencompass friction forces developed between shoe outsolesand playing surfaces.1.6 Traction characteristics measured by this test methodencompass traction achieved by penetration of cleats or studsinto playing surfaces.1.7 This test method specifies test procedures for the mea-surement o

6、f traction during linear translational motion androtational motion, but not simultaneous combinations of linearand translational motion.1.8 The loads and load rates specified in this test method arespecific to sports activities. The test method is not intended formeasurement of slip resistance or tr

7、action of pedestrian foot-wear.1.9 Test results obtained by this method shall be qualified bythe characteristics of the specimen.1.9.1 Comparative tests of surfaces shall be qualified by thecharacteristics of the shoes used to test the surfaces, includingthe cushioning, outsole material, and sole de

8、sign.1.9.2 Comparative tests of shoes shall be qualified by thepertinent characteristics of the surfaces on which shoes aretested, including the surface type, material, condition, andtemperature.1.10 This test method does not establish performance orsafety criteria. The level of traction required be

9、tween a sportshoe and surface varies with the level of performance and fromindividual to individual. The extent to which particular levelsof traction contribute to individual athletic performance andrisk of injury is not known.1.11 The values stated in SI units are to be regarded as thestandard.1.12

10、 This standard may involve hazardous materials, opera-tions and equipment. This standard does not purport to addressall of the safety concerns, if any, associated with its use. It isthe responsibility of the user of this standard to establishappropriate safety and health practices and determine thea

11、pplicability of regulatory limitations prior to use.2. Referenced Documents2.1 SAE Standard:SAE J211 Recommended Practice for Instrumentation forImpact Tests23. Terminology3.1 Definitions:3.1.1 footforma rigid form approximating the shape of afoot or shoe last to which the shoe under test may be tig

12、htlyfitted and through which the loads required by this test methodmay be transmitted.3.1.2 tractionresistance to relative motion between a shoeoutsole and a sports surface that does not necessarily obeyclassical laws of friction.3.1.2.1 dynamic tractiontraction measured during relativesliding motio

13、n between the shoe and the surface.3.1.2.2 linear tractiontraction related to rectilinear mo-tion parallel to the surface.3.1.2.3 rotational tractiontraction related to rotationalmotion about an axis normal to the surface.3.1.2.4 static tractiontraction measured at the start ofrelative sliding motio

14、n between the shoe and the surface.3.1.3 traction ratioratio of the traction force or torque andthe normal force acting at the shoe-surface interface.1This test method is under the jurisdiction of ASTM Committee F08 on SportsEquipment and Facilities and is the direct responsibility of Subcommittee F

15、08.54 onAthletic Footwear.Current edition approved Nov. 1, 2011. Published February 2012. Originallyapproved in 2004. Last previous edition approved in 2004 as F2333 04. DOI:10.1520/F2333-04R11.2Available from Society of Automotive Engineers (SAE), 400 CommonwealthDr., Warrendale, PA 15096-0001.1Cop

16、yright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.3.1.3.1 dymamic traction ratio (Tk,Rk)linear or rotationaltraction ratio measured during constant velocity relative mo-tion between the shoes and the surface.3.1.3.2 linear traction ratio (

17、T)ratio of the force resistingrelative rectilinear motion of the shoe parallel to the surfaceand the normal force at the shoe-surface interface.3.1.3.3 rotational traction ratio (R)ratio of the torqueresisting relative rotational motion about an axis normal to thesurface and the normal force acting

18、at the shoe-surfaceinterface.3.1.3.4 static traction ratio (Ts,Rs)linear or rotationaltraction ratio measured at the start of relative sliding motionbetween the shoe and the surface.4. Summary of Test Method4.1 A test shoe outsole or specimen is tested for tractioncharacteristics on the type of play

19、ing surface for which theshoe is intended.4.2 A shoe containing the outsole to be tested is pulled overa foot form, creating a tight fit capable of properly transmittingforces through the shoe material to the outsole-playing surfaceinterface. Alternatively, an outsole material specimen can befastene

20、d to a mounting plate and tested in the same manner asan outsole on an intact shoe.4.3 The shoe on the footform is loaded against the testsurface under a normal load specific to the sport category forwhich the shoe is intended. These normal loads, dependingupon the sport, will typically be higher th

21、an an athletes bodyweight. Normal loads, and the shoe axes along which tractionneeds are greatest, have been determined by research. Some ofthe loading conditions that have relevance for traction testingof outsoles designed for particular sports are itemized by sportcategory in Table 1. Tests should

22、 be conducted at these normalloads or at a normal load of 1000 6 75 N unless otherwisespecified. The normal loads can be applied by means ofweights or hydraulic cylinders, springs in compression or otherappropriate means and transmitted through a shaft to which thefootform is securely attached.4.4 T

23、he normal load is distributed entirely beneath the distalhalf or the forefoot region of the outsole unless otherwisespecified. The proximal half or the rearfoot should not contactthe playing surface except as noted in Table 1. Alternatively, ifdeemed appropriate for the sports movement for which the

24、shoe outsole design is intended, normal loads are distributeduniformly beneath the proximal half or the rearfoot portion ofthe outsole. If the shoe construction typically includes amidsole that provides cushioning, an appropriate midsoleshould be included in the test shoe. If the test involves aA. S

25、hoe under test, mounted on a footform.B. Surface under test.C. Guide rails with linear bearings or other means of maintaining rectilinear motion.D, E. Vertical shaft and bearing mounted carriage or other means of maintaining motion parallel to the plane of the shoe-surface interface.F. Weights, actu

26、ator or other means of applying a downward vertical force.G. Actuator or other means of applying a horizontal force.H. Force plate or other means of measuring vertical and horizontal forces.J. Velocity transducer.FIG. 1 Schematic Diagram of a Generic Device for Measuring Linear TractionF2333 04 (201

27、1)2specimen of outsole material fastened to a mounting plate, anequivalent midsole material of appropriate thickness is to beincluded between the mounting plate and the outsole material.NOTE 1The cushioning material helps to distribute normal loads moreuniformly between the outsole and the playing s

28、urface. The cushion doesnot reproduce the distribution of loads transmitted through the shoebottom to the outsole by the loaded human foot, but does increase testrepeatability.4.5 For linear traction measurements, a linear actuator isused to overcome the static traction and produce relativerectiline

29、ar motion of the shoe and surface, parallel to the shoeoutsole-playing surface interface. The actuator may be pneu-matically, hydraulically, or electrically driven. The distance ofrelative sliding motion between the shoe and the surface shallbe a minimum of 20 cm, unless the interacting surfaces def

30、ormor fail at a smaller distance.4.6 Sliding velocity shall be recorded and reported. Therecommended minimum sliding velocity is 0.3 m s-1.NOTE 2Under some conditions, for example, cleated shoes on artifi-cial turf, spiked shoes on running tracks, it may not be possible to generatesliding at the rec

31、ommended velocity. Under these circumstances, the forceand velocity developed should be recorded and dynamic traction coeffi-cients should not be reported.4.7 For rotational traction measurements, the loaded shoeoutsole is rotated about the vertical shaft transmitting thenormal loads. The rotary mot

32、ion may be applied manually, orby means of a rotary actuator. The minimum rotation appliedshall be 90 unless the interacting surfaces deform or fail at aA. Shoe under test, mounted on a footform.B. Surface under test.D, E. Vertical shaft and bearings or other means of constraining rotation about the

33、 vertical axis parallel to the plane of the shoe-surface interface.F. Weights, actuator or other means of applying a downward vertical force.G. Actuator or other means of applying a torque.H. Force plate or other means of measuring vertical force and torque about the vertical axis.J. Angular velocit

34、y transducer.FIG. 2 Schematic Diagram of a Generic Device for Measuring Rotational TractionTABLE 1 Distribution of Normal Loads and Application of PullingForcesSport MovementNormalLoad (N)LoadDistributionDirectionof MotionRunningAPush-off 800 Forefoot Distal-proximalSprinting Push-off 1500 Forefoot

35、Distal-proximalTennis,basketball,Bsoccer,CfootballCutting 2200 Forefoot Medial-lateralStopping 3000 Forefoot Proximal-distalShufflingD1300 Forefoot Medial-lateralStarting 1500 Forefoot Distal-proximalFootball Pushing 900 Forefoot Distal-proximalAerobic dance 500 Forefoot Medial-lateralGolf Downswing

36、 600 Lateral outsole Medial-lateralAValiant, G. A., “FrictionSlippingTraction,” Sportverletzung Sportschaden,7,1993, pp. 171-178.BValiant, G. A. and Eden, K. B., “Evaluating Basketball Shoe Design withGround Reaction Forces,” Proceedings of the Second North American Congresson Biomechanics, Chicago,

37、 August 24-28, 1992, pp. 271-272.CValiant, G. A., “Ground Reaction Forces Developed on Artificial Turf,” Scienceand Football, T. Reilly, A. Lees, and W. J. Murphy, Eds., E. friction; sports surface; tractionF2333 04 (2011)5(a) Velocitytime curve(b) Horizontal forcetime curve(c) Normal forcetime curv

38、e(d) Traction Ratio, TNOTEDotted lines indicate region of approximately constant velocity for which average, maximum and minimum values of T are calculated.FIG. 3 Example Data from a Linear Traction Measurement TrialF2333 04 (2011)6APPENDIXES(Nonmandatory Information)X1. RATIONALEX1.1 The traction c

39、haracteristics of athletic shoe-sportssurface interfaces do not obey the classical laws of Coulombfriction (1,2).3It is generally the case that the shoe-surfaceinterface is neither smooth nor planar and that the forcesresisting relative motion between them include not onlyfriction, but also other fo

40、rces due to mechanical interaction andinterpenetration of the shoe outsole and the surface. Also, thematerials used to manufacture shoe outsoles and surfaces arenon-linearly elastic and non-rigid, violating the assumptions ofclassical friction.X1.2 In contrast to classical theory, in which coefficie

41、nts offriction between two surfaces are independent of normal force,sliding velocity, and contact area, traction between the shoeand the surface is not constant and may vary non-linearly withnormal force, sliding velocity and contact area. Unlike classicalfriction coefficients, dynamic traction rati

42、os frequently exceed1.0. The moments opposing frictional resistance to rotation canrange from 20 to 60 Nm, increasing in an approximately linearmanner with increasing normal force.X1.3 The non-linearity of shoe-surface traction requiresthat measurements be made at loads and loading rates in therange

43、 that can be expected in vivo. Tests conducted at normalloads exceeding athlete body weights and for dynamic frictionmeasures at realistic sliding velocities (3,4) are acceptablewhile those conducted at low normal loads (5,6) are lessappropriate. Test methods that rely on the assumptions ofCoulomb f

44、riction are not appropriate for measuring traction atthe athletic shoe-sport surface interface. Since many athleticactivities are played on surfaces that can deform and move,such as natural turf and running trails, test methods shouldaccount for movement of soil or turf during testing and thesubsequ

45、ent effects on the measurement of traction characteris-tics. A test method should also provide a procedure forevaluating traction in field conditions, including cleated foot-wear applications, and also in realistic laboratory conditions.X1.4 This test method attempts to address these issues bydescri

46、bing a means of measuring traction at appropriate loadsand loading rates that does not rely on classical laws of friction.X2. RELEVANCEX2.1 Enhancement of Performance:X2.1.1 The traction between a sport shoe and a playingsurface is an important determinant of human athletic perfor-mance. High tracti

47、on characteristics of athletic shoe outsolesenhance athletes abilities to run fast, make quick starts andstops, and make rapid changes in running direction. Forexample, Krahenbuhl (7) reported that athletes wearing cleatedshoes could not run through an agility course as fast on naturalturf as on an

48、artificial turf surface. He assumed that theartificial turf provided a greater gripping effect between shoeoutsole and turf. Morehouse and Morrison also measured fasterperformance times on artificial compared to natural turf forfootball players completing an agility run, a 10-yard sprint, a40-yard s

49、print, and a blocking drill (8). The implications arethat the greater traction provided by artificial turf surfacesresults in performance enhancement. Similarly, increased out-sole traction would have equivalent performance enhancementbenefits.X2.1.2 Many athletic movements result in the developmentof high horizontal forces between the shoe and the playingsurface. During the first few accelerating foot steps out ofstarting blocks, 100 m sprinters are developing backwarddirected horizontal force components exceeding 120 % of theirbody weight. Penetration of s

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