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本文(ASTM A125-1996(2013) Standard Specification for Steel Springs Helical Heat-Treated《热处理螺旋形钢弹簧的标准规格》.pdf)为本站会员(dealItalian200)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 A125-1996(2013) Standard Specification for Steel Springs Helical Heat-Treated《热处理螺旋形钢弹簧的标准规格》.pdf

1、Designation: A125 96 (Reapproved 2013)Standard Specification forSteel Springs, Helical, Heat-Treated1This standard is issued under the fixed designation A125; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revisio

2、n. A number in parentheses indicates the year of last reapproval. Asuperscript 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. Scope1.1 This specification covers hot-coiled, heat-treate

3、d helicalcompression springs with tapered, closed, squared and groundends made of hot-wrought round steel bars38 in. (9.5 mm) andlarger in diameter.1.2 This specification also serves to inform the user ofpractical manufacturing limits, mechanical tests, and inspec-tion requirements applicable to the

4、 type of spring described in1.1.1.3 Supplementary Requirements S1 to S8 inclusive of anoptional nature are provided. They shall apply only whenspecified by the purchaser. Details of these supplementaryrequirements shall be agreed upon by the manufacturer andpurchaser.1.4 The values stated in inch-po

5、und units are to be regardedas standard. The values given in parentheses are mathematicalconversions to SI units that are provided for information onlyand are not considered standard.2. Referenced Documents2.1 ASTM Standards:2A29/A29M Specification for Steel Bars, Carbon and Alloy,Hot-Wrought, Gener

6、al Requirements forA689 Specification for Carbon and Alloy Steel Bars forSpringsE10 Test Method for Brinell Hardness of Metallic MaterialsE112 Test Methods for Determining Average Grain SizeE709 Guide for Magnetic Particle Testing3. Ordering Information3.1 Orders for springs under this specification

7、 shall includethe following information:3.1.1 Quantity,3.1.2 Name of material,3.1.3 A drawing or list showing required dimensions andloads, and part number,3.1.4 Packaging, marking and loading, and3.1.5 End use.NOTE 1A typical ordering description is: 500 springs Drawing 3303Rev. A. to ASTM A125, 10

8、95 steel, for cyclical machine operation.Palletize, maximum weight 4000 lb.4. Materials and Manufacture4.1 Material:4.1.1 Unless otherwise specified, the springs shall be madeof carbon steel bars conforming to the requirements of Speci-fication A689. Due to hardenability limitations of carbon steel,

9、it is suggested that the bar diameter be limited to 158 in. (41.8mm) max in order to withstand the maximum test stressrequirements of this specification.4.1.2 If alloy steel is specified, the springs shall be madefrom alloy steel bars conforming to Specification A689.Any ofthe alloy steel grades ref

10、erred to may be used at the option ofthe spring manufacturer, providing that a minimum as-quenched hardness of Rockwell HRC-50 will be achieved atthe center of the bar section representing the spring whenquenched in the same media and manner as the spring.4.1.3 Springs Made from Bars Over 2 in. (50.

11、8 mm)Notethat the bias tolerance (reference Specification A29/A29M,Table A1.1 on Permissible Variations in Cross Section forHot-Wrought Round, Square, and Round-Cornered SquareBars of Steel) of the bar diameter shall be taken into consid-eration when designing and calculating the solid height, sprin

12、grate, solid stress, and solid capacity.4.2 Hardness:4.2.1 The springs must be quenched and tempered to asufficiently high hardness (strength) to withstand the stressesdeveloped in testing the finished spring. The maximum hard-ness shall not exceed 477 Brinell numbers (2.80 mm indenta-tion diameter)

13、.4.2.2 When hardness limits are specified, the total range orspread may not be less than 0.15 mm difference in indentationdiameters. The specified or indicated minimum hardness must1This specification is under the jurisdiction of ASTM Committee A01 on Steel,Stainless Steel and Related Alloys and is

14、the direct responsibility of SubcommitteeA01.15 on Bars.Current edition approved Oct. 1, 2013. Published November 2013. Originallyapproved in 1929. Last previous edition approved in 2007 as A125 96 (2007).DOI: 10.1520/A0125-96R13.2For referenced ASTM standards, visit the ASTM website, www.astm.org,

15、orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States1be sufficient to

16、develop the required strength to withstand thesolid stresses of the spring design involved.4.2.3 Hardness shall be read on a prepared flat surface in anarea not detrimental to the life of the spring at a full sectionafter removal of the decarburized layer. A tungsten-carbide10-mm ball shall be appli

17、ed under a 3000-kg load and theindentation diameter converted to Brinell numbers by usingTable 1. The values for Table 1 have been taken fromSpecification E10.4.3 Metallurgical Requirements:4.3.1 The total depth of decarburization, partial plus com-plete as measured on the finished spring in the que

18、nched andtempered condition, shall not exceed 0.006 in. (0.15 mm) plus1 % of the bar diameter. The decarburization shall be examinedat 100 on a test specimen suitably etched and cut from a fullcross section of the test spring showing at least one lineal inchof original bar circumference.4.3.2 The st

19、ructure of the finished spring shall have anaverage ASTM Grain Size No. 5 or finer as determined by thelatest revision of Test Methods E112.4.4 End Construction:4.4.1 End Construction-Tapered Squared and GroundTheend bearing surfaces of the spring shall be ground to producea firm bearing. The end be

20、aring surfaces shall have a minimumbearing surface of two thirds of the mean coil circumferenceand a minimum width of two thirds of the hot-tapered surfaceof the bar. The tip ends of the bar shall be in approximatecontact with the adjacent coil, and shall not protrude beyondthe maximum permissible o

21、utside diameters of the spring asestablished by Table 2.4.4.1.1 End Construction Coil Blunt Squared and Ground(Optional)The end bearing surfaces of the spring shall beground to produce a firm bearing. The end bearing surfacesshall have a minimum ground bearing surface of two thirds ofthe mean coil c

22、ircumference and a minimum width of twothirds of the bar diameter. The tip ends of the bar shall be inapproximate contact with the adjacent coil and shall notprotrude beyond the maximum permissible outside diametersof the spring as established by Table 2.4.4.2 Springs with ground ends having a free

23、height-to-mean diameter ratio of not less than 1 or more than 5 shall notdeviate from the perpendicular more than the number ofdegrees prescribed in Table 3, as determined by standing thespring on its end and measuring the angular deviation of astraightedge along the outer helix from a perpendicular

24、 to theplate on which the spring is standing.4.4.3 The ends of springs shall be parallel within a toleranceof twice that specified for the squareness of ends as determinedby standing the spring on its end and measuring the maximumangular deviation of the other end from a plane parellel to theplate o

25、n which the spring is standing.5. Physical Requirements5.1 Measurements:5.1.1 Solid HeightThe solid height is the perpendiculardistance between the plates of the testing machine when thespring is compressed solid with the load specified in 7.3. TheTABLE 1 Permissible Out-of-Squareness, Springs with

26、Ground EndsTotal Travel, in. (mm) Mean Diameter, in. (mm)2 (51)andunderOver 2to 4(51 to102), inclOver 4to 6(102 to152), inclOver 6to 8(152 to203), inclOver 8to 10(203 to254), inclOver 10to 12(254 to305), inclOver 12to 14(305 to356), inclOver 14to 16(356 to406), inclOver 16to 18(406 to457), inclOver

27、18to 20(457 to508), inclDegree2 (51) and under 114 114 1111. . . .Over 2 to 4 (51 to 102), incl 134 112 114 114 1 1 1 . . .Over 4 to 6 (102 to 152), incl 214 134 112 114 114 1 1 . . .Over 6 to 8 (152 to 203), incl 212 214 134 112 114 114 1 1 . .Over 8 to 10 (203 to 254), incl 234 212 2112 112 114 11

28、4 1 . .Over 10 to 12 (254 to 305), incl 3 234 214 134 112 112 114 114 1 .Over 12 to 14 (305 to 356), incl . . . 3 212 2134 134 112 112 114 114Over 14 to 16 (356 to 406), incl . . . . . . 234 214 2234 134 112 112Over 16 to 18 (406 to 457), incl . . . . . . 3 212 214 2234 134 112Over 18 to 20 (457 to

29、508), incl . . . . . . 3 234 212 214 214 2234Over 20 to 22 (508 to 559), incl . . . . . . . . . 3 234 214 214 134Over 22 to 24 (559 to 610), incl . . . . . . . . . . . . 3 214 214 2234Over 24 to 26 (610 to 660), incl . . . . . . . . . . . . . . . 212 212 214 214 2Over 26 to 28 (660 to 701), incl . .

30、 . . . . . . . . . . . . . 212 212 214 214 2Over 28 to 30 (702 to 762), incl . . . . . . . . . . . . . . . 234 212 214 214 2Over 30 to 32 (762 to 813), incl . . . . . . . . . . . . . . . 234 234 212 212 .Over 32 to 34 (813 to 864), incl . . . . . . . . . . . . . . . 234 234 212 212 .Over 34 to 38 (8

31、64 to 914), incl . . . . . . . . . . . . . . . 3 234 234 234 .Over 36 to 38 (914 to 965), incl . . . . . . . . . . . . . . . . . . 3 234 234 .Over 38 to 42 (965 to 1016), incl . . . . . . . . . . . . . . . . . . . . . 3 3 . . .TABLE 2 Brinell HardnessIndentation Diameter, mm Brinell Hardness Numbers

32、2.75 4952.80 4772.85 4612.90 4442.95 4293.00 4153.05 4013.10 3883.15 375A125 96 (2013)2solid height thus measured may be less, but shall not exceedthe specified nominal solid height by more than the limits givenin Table 4.5.1.2 Free HeightThe free height is the height of thespring after the load spe

33、cified in 7.3 has been released, and isdetermined by placing a straightedge across the top of thespring and measuring the perpendicular distance from the plateon which the spring stands to the bottom of the straightedge atthe approximate center of the spring. Tolerances are shown inTable 5.5.1.3 Loa

34、ded HeightThe loaded height is the perpendicu-lar distance between the plates of the testing machine when thespecified working load has been applied in compression.Tolerances are shown in Table 5.5.1.4 Permanent SetAfter determining the free height asspecified in 5.1.2, the permanent set is the diff

35、erence betweenthis free height and the height after the spring has beencompressed solid three additional times under the test loadspecified in 7.3, measured at the same point and in the samemanner. Tolerances are shown in Table 5.5.1.5 Uniformity of PitchThe pitch of the coils shall besufficiently u

36、niform so that when the spring is compressedwithout lateral support to a height representing a deflection of85 % of the nominal total travel, none of the coils shall be incontact with one another, excluding the inactive end coils.Under 85 % deflection, the maximum spacing between any twoadjacent act

37、ive coils shall not exceed 40 % of the nominal freecoil spacing. The nominal free coil spacing is equivalent to thespecified total travel divided by the number of active turns.TABLE 3 Permissible Variations in Outside Diameter of Helix(For springs with D/d ratio not exceeding 8)NOTE 1(for design inf

38、ormation) These permissible variations, exclusives of manufacturing taper, should be used as a guide in the design ofconcentrically-nested helical-spring units for free assembly. The diametrical clearance desired is116 in. (1.59 mm) less than the sum of the applicabletolerances of the nested spring

39、units, but in no case should it be less than18 in. (3.17 mm).NOTE 2In cases where radical clearance on existing concentrically-nested helical-spring units will not accommodate these tolerances, the nominalinside diameters shall be adhered to as closely as practicable, with plus variation on the oute

40、r springs and minus variation on the inner springs to guaranteefree assembly. Drawings must show reference to the complete nested spring units.NOTE 3(For springs with D/d ratio not exceeding 8). For D/d ratio greater than 8, increase tolerance 50 %.Nominal Outside Diameter, in.(mm)Nominal Free Heigh

41、t or Length of Spring, in. (mm)Up to 10 (254)incl, Over 10 to 18(254 to 457),incl, Over 18 to 26(457 to 661),incl, Over 26 to 34(661 to 874),incl, Over 34 to 42(874 to 1067),incl, Over 42 to 60(1067 to 1524),incl, Up to 6 (152), incl116 (1.59)332 (2.38)18 (3.17)532 (3.97)316 (4.76) . . .Over 6 to 8

42、(152 to 203), incl332 (2.38)18 (3.17)316 (4.76)14 (6.35)14 (6.35) . . .Over 8 to 12 (203 to 305), incl18 (3.17)316 (4.76)14 (6.35)14 (6.35)14 (6.35) . . .Over 12 to 16 (305 to 406), incl . . .14 (6.35)14 (6.35)14 (6.35)14 (6.35)516 (7.94)Over 16 to 20 (406 to 508), incl . . . . . .516 (7.94)516 (7.9

43、4)516 (7.94)38 (9.53)Over 20 to 24 (508 to 610), incl . . . . . .38 (9.53)38 (9.53)38 (9.53)716 (11.00)Over 24 to 28 (610 to 701), incl . . . . . .71671671612Over 28 (701), incl . . . . . .12121212TABLE 4 Permissible Variations in Solid HeightNominal Solid Height, in. (mm) Deviation Above Nominal So

44、lidHeight, max, in.A(mm)Up to 7 (178), incl116 (1.59)Over 7 to 10 (178 to 254), incl332 (2.38)Over 10 to 13 (254 to 330), incl18 (3.17)Over 13 to 16 (330 to 406), incl532 (3.97)Over 16 to 19 (406 to 483), incl316 (4.76)Over 19 to 22 (483 to 559), incl732 (5.56)Over 22 to 25 (559 to 635), incl14 (6.3

45、5)Over 25 to 28 (635 to 711), incl932 (7.14)Over 28 to 31 (711 to 787), incl516 (7.94)AFor additional 3-in. (76-mm) increase in solid height, the deviation shown shouldbe increased by132 in. (0.79 mm).TABLE 5 Permissible Variations in Free Height, Loaded Heightand Permanent SetNominal TotalDeflectio

46、n, in. (mm)DeviationFromNominal FreeHeight, max,in.(mm),DeviationFromNominalLoadedHeight,Amax,in.(mm),PermanentSet, max,in. (mm)Up to 3 (76.2), incl532 (3.97)432 (3.17)364 (1.19)Over 3 to 4 (76.2 to 102), incl832 (6.35)532 (3.97)464 (1.59)Over 4 to 5 (102 to 127), incl832 (6.35)632 (4.76)464 (1.59)O

47、ver 5 to 6 (127 to 152), incl1132 (8.73)732 (5.56)564 (1.99)Over 6 to 7 (152 to 179), incl1132 (8.73)832 (6.35)564 (1.99)Over 7 to 8 (179 to 203), incl1432 (11.0)932 (7.14)664 (2.38)Over 8 to 9 (203 to 228), incl1432 (11.0)1032 (7.94)664 (2.38)Over 9 to 10 (228 to 254), incl1732 (13.49)1132 (8.73)76

48、4 (2.78)Over 10 to 11 (254 to 279), incl1732 (13.49)1232 (9.53)764 (2.78)Over 11 to 12 (279 to 305), incl2032 (15.87)1332 (10.32)864 (3.17)Over 12 to 13 (305 to 330), incl2032 (15.87)1432 (11.00)864 (3.17)Over 13 to 14 (330 to 356), incl2332 (18.25)1532 (11.91)864 (3.17)Over 14 to 15 (356 to 381), i

49、ncl2332 (18.25)1632 (12.70)964 (3.57)Over 15 to 16 (381 to 406), incl2632 (20.64)1732 (13.49)964 (3.57)Over 16 to 17 (406 to 431), incl2632 (20.64)1832 (14.28)1036 (3.97)Over 17 to 18 (431 to 457), incl2932 (23.01)1932 (15.08)1064 (3.97)Over 18 to 19 (457 to 483), incl2932 (23.01)2032 (15.87)1164 (4.37)Over 19 to 20 (483 to 508), incl 1 (25.40)2132 (16.67)1164 (4.37)Over 20 to

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