1、Designation: F2162 01 (Reapproved 2016)Standard Specification forBearing, Roller, Needle: Drawn Outer Ring, FullComplement, Without Inner Ring, Open and Closed End,Standard Type1This standard is issued under the fixed designation F2162; the number immediately following the designation indicates the
2、year oforiginal adoption 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.This standard has been approved for use by agencies of the U.S.
3、Department of Defense.1. Scope1.1 This specification covers standard-type needle rollerbearings having drawn outer rings, full complement, withoutinner rings, with either open or closed ends.1.2 The use of recycled materials that meet the requirementsof the applicable material specification without
4、jeopardizingthe intended use of the item is encouraged.1.3 The inner rings specified in this specification are notintended for use in flight critical systems of aircraft.1.4 The values stated in inch-pound units are to be regardedas standard. The values given in parentheses are mathematicalconversio
5、ns to SI units that are provided for information onlyand are not considered standard.NOTE 1This specification contains many of the requirements ofMS17131, which was originally developed by the Department of Defenseand is currently maintained by the Defense Supply Center Richmond.2. Referenced Docume
6、nts2.1 ASTM Standards:2E18 Test Methods for Rockwell Hardness of Metallic Ma-terialsE140 Hardness Conversion Tables for Metals RelationshipAmong Brinell Hardness, Vickers Hardness, RockwellHardness, Superficial Hardness, Knoop Hardness, Sclero-scope Hardness, and Leeb HardnessE384 Test Method for Mi
7、croindentation Hardness of Mate-rialsF2163 Specification for Ring, Bearing, Inner: for NeedleRoller Bearing With Drawn Outer Ring2.2 ASME Standard:ASME B 46.1 Surface Texture Surface Roughness,Waviness, and Lay32.3 SAE Standard:SAE J-404 Chemical Composition of SAE Alloy Steels42.4 Military Standard
8、:MIL-STD-130 Identification Marking of US Military Prop-erty52.5 American Bearing Manufacturers Association (ABMA)Standard:STD 4 Tolerance Definitions and Gauging Practices For Balland Roller Bearings62.6 ISO Standards:ISO 5593 Rolling BearingsVocabulary7ISO 1132 Rolling BearingsTolerancesDefinition
9、s73. Terminology3.1 DefinitionsFor definitions of terms used in thisspecification, refer to ABMA STD 4 Tolerance Definitions andGauging Practices for Ball and Roller Bearings, ISO 1132Roller BearingsTolerancesDefinitions, and to ISO 5593Rolling BearingsVocabulary3.2 Definitions of Terms Specific to
10、This Standard:3.2.1 average life (L50), nfor a radial roller bearing, thenumber of revolutions that 50 % of a group of bearings willcomplete or exceed before the first evidence of fatigue devel-ops.3.2.1.1 DiscussionThe average life maybe as much as fivetimes the rating life.1This specification is u
11、nder the jurisdiction ofASTM Committee F34 on RollingElement Bearings and is the direct responsibility of Subcommittee F34.04 onAutomotive/Industrial Bearing.Current edition approved May 1, 2016. Published May 2016. Originallyapproved in 2001. Last previous edition approved in 2008 as F2162 01(2008)
12、.DOI: 10.1520/F2162-01R16.2For 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 the standards Document Summary page onthe ASTM website.3Available from Global Engineering
13、Documents, 15 Inverness Way, EastEnglewood, CO 80112-5704, http:/.4Available from Society of Automotive Engineers (SAE), 400 CommonwealthDr., Warrendale, PA 15096-0001, http:/www.sae.org.5Available from USA Information Systems, 1092 Laskin Rd., Ste. 208, VirginiaBeach, VA 23451.6Available from the A
14、merican Bearing Manufacturers Association, 1200 19thSt. NW, Ste. 300, Washington, DC 200362401.7Available from American National Standards Institute (ANSI), 25 W. 43rd St.,4th Floor, New York, NY 10036, http:/www.ansi.org.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshoh
15、ocken, PA 19428-2959. United States13.2.2 basic dynamic load rating (Cr) , nfor a radial rollerbearing, that calculated, constant radial load that a group ofapparently identical bearings with stationary outer rings cantheoretically endure for a rating life of one million revolutionsof the inner ring
16、.3.2.2.1 DiscussionSince applied loading as great as thebasic dynamic load rating tends to cause local plastic defor-mation of the rolling surfaces, it is not anticipated that suchheavy loading would normally be applied.3.2.3 basic static load rating (Cor) , nfor a radial rollerbearing, that uniform
17、ly distributed static radial load whichproduces a maximum contact stress of 580 000 psi (4000 Mpa)at the center of the contact of the most heavily loaded rollingelement.3.2.3.1 DiscussionFor this contact stress, total permanentdeformation of rolling element and raceway occurs which isapproximately 0
18、.0001 or the roller diameter.3.2.4 rating life (L10), nfor a radial roller bearing, thenumber of revolutions that 90 % of a group of bearings willcomplete or exceed before the first evidence of fatigue devel-ops.4. Classification4.1 This specification covers the following types of rollerbearings:4.1
19、.1 Type BOpen end roller bearings, and4.1.2 Type MClosed end roller bearings.5. Ordering Information5.1 When ordering parts in accordance with thisspecification, specify the following:5.1.1 ASTM designation number, including year of issue,5.1.2 Type, whether Type B or Type M roller bearings (seeSect
20、ion 4) are to be furnished,5.1.3 Dash number (see Table 1),5.1.4 Dimensions of roller bearings, including:5.1.4.1 Bore diameter, in;5.1.4.2 Ring gage diameter, in;5.1.4.3 Width, in; and5.1.4.4 Shaft diameter, in;5.1.5 Load rating, including basic static load rating, lb andbasic dynamic load rating,
21、lb;5.1.6 Approximate limiting speed, rpm; and5.1.7 Maximum end thickness.6. Materials and Manufacture6.1 Needle RollersNeedle rollers shall be manufactured ofsteel, alloy or carbon, of grades E50100 or E52100 in accor-dance with SAE AHS STD-66, or 1090 or 1095 in accordancewith SAE J-404.6.2 RingsRi
22、ngs shall be manufactured of steel, alloy, orcarbon, carburizing grade 4620, 4720, 8620, 8720, or 1010-1020 in accordance with SAE AHS STD-66.7. Other Requirements7.1 Heat Treatment:7.1.1 Needle RollersNeedle rollers shall be through-hardened to Rockwell HRC58 or equivalent, in accordancewith Test M
23、ethods E18.7.1.2 RingsRings shall be case hardened to surface hard-ness of Rockwell HRC58-65 or equivalent, in accordance withTest Methods E18 with a 0.003 in. minimum case depth.7.1.2.1 This case depth will not support Rockwell HR15N.Use of a standard file test in accordance with SAE J-864 ormicros
24、ection and microhardness test in accordance with TestMethod E18 is required to determine the surface hardness.7.1.3 ShaftsBearings are intended to be used with shaftshardened to Rockwell HRC58-65 in accordance with TestMethods E18.7.1.3.1 When an open end bearing is used with an unhard-ened shaft, t
25、he bearing shall be used in conjunction with aninner bearing ring (Specification F2163).7.2 Protective Coating:7.2.1 Needle rollers and rings shall be furnished withoutplating.7.2.2 Manufacturer shall coat bearings with rust preventivefilm.7.3 LubricationBearings shall be furnished without lubri-cat
26、ion.7.4 Rollers shall be retained by the outer ring.7.5 Bearings shall not be furnished with roller separators.7.6 Oil holes shall be furnished in accordance with themanufacturers standard practice.8. Dimensions, Mass, and Permissible Variations8.1 Products manufactured in accordance with this speci
27、fi-cation shall meet the requirements shown in Table 1.8.2 Plug GagesThe “go” plug gage is the same size as theminimum diameter under the needle rollers column in Table 1,and the “no go” plug gage size is 0.0001 in. larger than themaximum diameter under the needle rollers column in Table 1.FIG. 1 Sc
28、hematic Drawing of Type B and Type M Roller BearingsF2162 01 (2016)2TABLE 1 Roller Bearing Dimensions and TolerancesDash NumberFwBore Diameter, in.DDiameter, in.CWidth, in.+0.000 -0.010Shaft Diameter,in.Basic StaticLoad Rating,lbBasic DynamicLoad Rating,lbApproximateLimitingSpeed,rpmXEndThickness,in
29、., maxTypeBTypeMNom. Min. Max.RingGageOutsideNom.Min. Max.1 1M18 0.1258 0.1267 0.250514 0.250 0.1247 0.1250 221 236 12 500 0.052 2M532 0.1571 0.1580 0.2817932 0.312 0.1560 0.1563 387 374 10 700 0.053 3M316 0.1883 0.1892 0.34371132 0.250 0.1872 0.1875 283 309 10 700 0.074 4M316 0.1883 0.1892 0.343711
30、32 0.375 0.1872 0.1875 575 537 10 700 0.075 5M14 0.2515 0.2524 0.4380716 0.312 0.2495 0.2500 482 498 10 000 0.086 6M14 0.2515 0.2524 0.4380716 0.438 0.2495 0.2500 865 786 10 000 0.087 7M516 0.3140 0.3149 0.500512 0.312 0.3120 0.3125 578 573 8300 0.088 8M516 0.3140 0.3149 0.500512 0.438 0.3120 0.3125
31、 1040 903 8300 0.089 9M38 0.3765 0.3774 0.5630916 0.375 0.3745 0.3750 941 826 7100 0.0810 10M38 0.3765 0.3774 0.5630916 0.500 0.3745 0.3750 1480 1180 7100 0.0811 11M716 0.4390 0.4399 0.625558 0.500 0.4370 0.4375 1690 1280 6300 0.0812 12M12 0.5015 0.5024 0.68801116 0.375 0.4995 0.5000 1210 968 5500 0
32、.0813 13M12 0.5015 0.5024 0.68801116 0.500 0.4995 0.5000 1900 1380 5500 0.0814 14M12 0.5015 0.5024 0.68801116 0.750 0.4995 0.5000 3280 2100 5500 0.0864 64M12 0.5015 0.5024 0.68801116 0.312 0.4995 0.5000 867 748 5500 0.0865 65M12 0.5015 0.5024 0.68801116 0.625 0.4995 0.5000 2590 1750 5500 0.0815 15M9
33、16 0.5640 0.5649 0.750534 0.375 0.5620 0.5625 1340 1030 5000 0.0816 16M916 0.5640 0.5649 0.750534 0.500 0.5620 0.5625 2110 1470 5000 0.0817 17M916 0.5640 0.5649 0.750534 0.750 0.5620 0.5625 3640 2240 5000 0.0818 18M58 0.6265 0.6274 0.81301316 0.500 0.6245 0.6250 2320 1560 4500 0.0819 19M58 0.6265 0.
34、6274 0.81301316 0.750 0.6245 0.6250 4010 2380 4500 0.0866 66M58 0.6265 0.6274 0.81301316 0.312 0.6245 0.6250 1060 846 4500 0.0867 67M58 0.6265 0.6274 0.81301316 0.438 0.6245 0.6250 1900 1330 4500 0.0820 20M1116 0.6890 0.6899 0.875578 0.500 0.6870 0.6875 2530 1640 4200 0.0821 21M1116 0.6890 0.6899 0.
35、875578 0.750 0.6870 0.6875 4370 2510 4200 0.0822 22M34 0.7505 0.7514 0.9995 1 0.500 0.7495 0.7500 2630 2000 5300 0.0923 23M34 0.7505 0.7514 0.9995 1 0.750 0.7495 0.7500 4700 3140 5300 0.0968 68M1316 0.8130 0.8139 1.0620 1116 0.375 0.8120 0.8125 1710 1410 5200 0.0924 24M1316 0.8130 0.8139 1.0620 1116
36、 0.500 0.8120 0.8125 2820 2090 5000 0.0925 25M1316 0.8130 0.8139 1.0620 1116 1.000 0.8120 0.8125 7280 4360 5000 0.0969 69M78 0.8755 0.8764 1.1245 118 0.500 0.8745 0.8750 3020 2170 4800 0.0926 26M78 0.8755 0.8764 1.1245 118 0.750 0.8745 0.8750 5400 3420 4500 0.0927 27M78 0.8755 0.8764 1.1245 118 1.00
37、0 0.8745 0.8750 7780 4540 4500 0.0928 28M1516 0.9380 0.9389 1.1870 1316 1.000 0.9370 0.9375 8280 4720 4400 0.0970 70M 1 1.0005 1.0014 1.2495 114 0.438 0.9995 1.0000 2730 1980 4300 0.0971 71M 1 1.0005 1.0014 1.2495 114 0.500 0.9995 1.0000 3410 2350 4300 0.0929 29M 1 1.0005 1.0014 1.2495 114 0.750 0.9
38、995 1.0000 6100 3690 4100 0.0930 30M 1 1.0005 1.0014 1.2495 114 1.000 0.9995 1.0000 8780 4900 4100 0.0931 31M 1116 1.0630 1.0639 1.3120 1516 0.625 1.0620 1.0625 5020 3140 3800 0.0932 32M 118 1.1255 1.1264 1.3745 138 0.750 1.1245 1.1250 6790 3930 3600 0.0933 33M 118 1.1255 1.1264 1.3745 138 1.000 1.1
39、245 1.1250 9790 5220 3600 0.0934 34M 1316 1.1880 1.1889 1.4995 112 0.625 1.1870 1.1875 5100 3430 4400 0.1135 35M 114 1.2505 1.2514 1.4995 112 1.000 1.2495 1.2500 10 800 5530 3300 0.0936 36M 114 1.2505 1.2514 1.4995 112 1.250 1.2495 1.2500 14 100 6800 3300 0.0937 37M 1516 1.3130 1.3140 1.6245 158 0.5
40、00 1.3120 1.3125 3840 2710 4000 0.1138 38M 1516 1.3130 1.3140 1.6245 158 0.625 1.3120 1.3125 5590 3630 4000 0.1139 39M 138 1.3755 1.3765 1.6245 158 0.750 1.3745 1.3750 8190 4370 3000 0.0940 40M 138 1.3755 1.3765 1.6245 158 1.250 1.3745 1.3750 15 400 7140 3000 0.0941 41M 112 1.5005 1.5016 1.8745 178
41、0.625 1.4995 1.5000 6200 4220 4300 0.1242 42M 112 1.5005 1.5016 1.8745 178 1.000 1.4995 1.5000 12 300 7170 4300 0.1243 43M 112 1.5005 1.5016 1.8745 178 1.250 1.4995 1.5000 16 300 8940 4300 0.1244 44M 158 1.6255 1.6266 1.9995 2 0.625 1.6245 1.6250 6620 4350 3900 0.1245 45M 158 1.6255 1.6266 1.9995 2
42、1.250 1.6245 1.6250 17 500 9260 3900 0.1246 46M 134 1.7505 1.7517 2.1245 218 0.750 1.7495 1.7500 9400 5620 3600 0.1247 47M 134 1.7505 1.7517 2.1245 218 1.000 1.7495 1.7500 14 000 7880 3600 0.1248 48M 134 1.7505 1.7517 2.1245 218 1.500 1.7495 1.7500 23 300 11 400 3600 0.1249 49M 178 1.8755 1.8767 2.2
43、495 214 0.500 1.8745 1.8750 5140 3500 3500 0.1250 50M 178 1.8755 1.8767 2.2495 214 1.000 1.8745 1.8750 15 000 6080 3500 0.1251 51M 2 2.0006 2.0018 2.3745 238 1.000 1.9994 2.0000 15 900 6300 3300 0.1252 52M 2 2.0006 2.0018 2.3745 238 1.750 1.9994 2.0000 31 700 14 200 3300 0.1272 72M 2116 2.0635 2.064
44、9 2.5307 21732 1.500 2.0619 2.0625 267 00 14 000 4000 0.1453 53M 218 2.1256 2.1270 2.4995 212 1.000 2.1244 2.1250 16 800 8510 3000 0.1254 54M 218 2.1256 2.1270 2.4995 212 1.500 2.1244 2.1250 28 000 12 600 3000 0.1255 55M 214 2.2506 2.2520 2.6245 258 0.750 2.2494 2.2500 12 000 6570 3000 0.1356 56M 21
45、4 2.2506 2.2520 2.6245 258 1.500 2.2494 2.2500 29 600 13 300 3000 0.1357 57M 212 2.5006 2.5020 2.8795 278 1.500 2.4994 2.5000 32 700 13 900 2700 . . .58 58M 258 2.6260 2.6274 2.9995 3 1.000 2.6244 2.6250 20 600 9570 2500 0.1359 59M 234 2.7510 2.7524 3.1245 318 1.000 2.7494 2.7500 21 600 9870 2500 0.
46、1360 60M 234 2.7510 2.7524 3.1245 318 1.250 2.7494 2.7500 28 700 12 300 2500 0.1361 61M 312 3.5010 3.5024 3.9995 4 0.750 3.4994 3.5000 16 900 9270 2700 0.1562 62M 512 5.5010 5.5029 5.9990 6 0.750 5.4993 5.5000 25 100 10 800 1600 . . .63 63M 714 7.2510 7.2530 7.7490 734 0.750 7.2490 7.2500 32 700 12
47、500 1200 . . .F2162 01 (2016)3Inspection of the bearing bore shall be made with the bearingpressed into a ring gage of the size shown in the ring gagediameter column of Table 1.8.3 Bearings are intended to be installed on shafts wheremaximum deflection does not exceed 0.0010 in. per inch ofbearing w
48、idth.8.4 Applications involving oscillating motion often requirereduced radial clearances. This reduction is accomplished byincreasing the shaft raceway diameters, in inches, as follows:Increase in Shaft RacewayDiameterFor Bearings with BoreDiameters of0.0003332 3160.000514 1780.0006 25128.5 Steel housing bore diameter dimensions, in inches, areas follows:Tolerance Applied to Ring Gage Diameter,to Obtain Steel Housing Bore DiameterFor Bearings with OutsideDiameters of+0.0000/0.0005 #1132+0.0000/0.0010716 78+0.0010 /0.0000 15+0.0020/0.0000 $
