FOR CURRENT COMMITTEE PERSONNEL PLEASE E-MAIL CS@asme.org Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled when REAFFIRMED 2003 I A M E R I C A N N A T I O N A S L T A N D A R D A N MP lG l GUTTERS AND END MUS (Revision of ANSI/ASMIE B94.19-1985) Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled wh The American Society of Mechanical Engineers ASME Bfl4.1fl-I fl!7 This Standard will be revised when the Society approves the issuance of a new edition There will be no addenda or written interpretations of the requirements of this Standard issued to this Edition ASME is the registered trademark of The American Society of Mechanical Engineers This code or standard was developed under procedures accredited as meeting the criteria for American National Standards The Consensus Committee that approved the code or standard was balanced t o assure that individuals from competent and concerned interests have had an opportunity to participate The proposed code or standard was made available for public review and comment which provides an opportunity for additional public input fromacademia, industry, regulatory agencies, and the public-at-large ASME does not "approve," "rate," or "endorse" any item, construction, proprietary device, or activity ASME does not take any position with respect to the validityof any patent rights asserted in in this document, and does not undertake to insure anyone connection with any items mentioned utilizing a standard against liability for infringement of any applicable Letters Patent, nor assume of any such liability Users of a code or standard are expressly advised that the determination the validity of any such patent rights, and the risk of the infringement of such rights, is entirely their own responsibility Participation by federal agency representative(s1 or person(s) affiliated with industry is not toe be interpreted as government or industry endorsement of this code or standard ASME accepts responsibilityfor only those interpretations issued in accordance with governing ASME procedures and policies which preclude the issuance of interpretations by individual volunteers No part of this document may be reproduced in any form, in an electronic retrieval system or otherwise, without the prior written permission of the publisher The American Society of Mechanical Engineers 345 East 47th Street, New York, NY 10017 Copyright 1998 by THE AMERICAN SOCIETY OF MECHANICAL ENGINEERS All Rights Reserved Printed in U.S.A Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled wh Date of Issuance: March 20, 1998 Interest in the standardization of smalltools, including milling cutters, dates back as far as I9 16.Late in 1918theAmerican Engineering Standards Committee was organized and by 1920ASME sponsorship hadbeen sought and obtained for its efforts Duringitsearlyyears,the interests of the Sectional Committee on Small Tools and MachineToolElementswere concentrated on other parts of the standardization program; the manufacturers of milling cutters began the work by inaugurating a program of simplified practiceunder procedures set upby theU.S.Department of Commerce A report of this activitywaspublished in 1925 Technical Committee No , organized in 1927 to further the effort, by 1929 had completed a proposed standard, submitted it toandhad it accepted by the Sectional Committee of theASMEanditstwo cosponsors, theNationalMachine Tool Builders’Associationand theSociety of Automotive Engineers Joint transmission of theproposed standard tothe American Standards Associationresulted in their grant of approvalandrecognition as an American Standard onApril 8, 1930,withthe designation ASA B5c-1930 Late in 1946, Sectional Committee BS instructed a reorganized TC5 to revise this standard, bring it intoharmony with theAmerican Standard for Machine Tapers (ASA BS.lO-1932), and enlarge its scope On its completion in 1949andapproval by the Sectional Committee and itsthree cosponsor organizations (The Metal Cutting ToolInstitute is the third), the revision was presented to the American Standards Association Designation as an American Standard was givenonApril , 1950 The documentwasdesignated ASA B5.3-1950 Again in 1956,TCSwas ‘reactivated, thistime for thepurpose of reviewingboth ASA B5.3- 1950 andASA BScl- 1947 (Nomenclature for Milling Cutter Teeth) for possible revision and unification As a result of thereview,thedecision wasmadetoreviseand unify, whichinvolvedsuch changes as: (a) deletion of all cutters not considered as standards; ( b ) inclusion of a nomenclature sectionmadeup of words and termstakenfrom ASA BScl-1947 andASA B5.3-1950 (both thenomenclature section andglossary of terms) but restrictedto elements of standard cutters only; ( c ) segregationand sectionalizing of tolerancesonmilling cutter dimensions plusthe addition, for the first time, of a table of tolerances on the axial and radial runout of standard cutters The resultingAmerican Standard was approved onFebruary , 1960; it was designated ASA B5.3-1960 In 1962, Sectional Committee BS was divided, andthe subject area of “Cutting Tools, Holders, Drivers, and Bushings” was assigned to new Sectional Committee B94, later renamed USA Standards Committee B94 Standardization of Milling Cutters was assigned to TCSofB94 Continuing developments in themilling cutter field,particularly a large expansion in the types of standardendmills, led toearlyreactivation ofTCS for thepurpose of reviewing andupdating ASA B5.3-1960 The resulting new standard, ANSI B94.19, was approved onMay 27,1968.ANSI B94.19- I968 incorporated several significant changes, such as: 111 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled w (This Foreword is not part of ASME 694.19-1997.) iv Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled w ( a ) the increasing importance of endmills as a distinct category of cutting toolswas recognized in the new title: “Milling Cutters and End Mills”; (6) dimensional standards for end mills were separated from those for conventional milling cutters andwerepresented in a separate section Similarly, the tolerance tables for milling cutters andendmillswerepresented separately; ( c ) the nomenclature section was updated and at the same time it was made more compact throughdeletion of unnecessaryphotographic illustrations The 1977revision follows theformat developed for ANSI B94.19-1968.Dimensional standards formilling cutters are covered by Tables 1-27, while Tables 28-65 cover end mills These are followed by commonmilling cutter and end mill elements in Tables 6669, and by milling cutter andend mill tolerances in Tables 70 and 71, respectively In the revision, two new tables were added while five were deleted; of the remaining tables, about 25%wererevisedto some degree The 1985revision followed the1977 format Duetothe addition ofnew Tables 66-71, which gave dimensions and standard sizes for premiumhigh speed steelendmills,the 1977 tables with these numberswere redesignated as Tables 72-77 The 1997revision of this Standard followsthe same format as the1985version with a few changes that were madetobring it into conformance with standard industry practice Three tables were removed and dimensions for overall length were changed in eight of the tables Tolerances wereadded to Table 74 for premiumhigh speed steelendmillsand adjustments weremadetothe tables to remove specifications for tools that are no longer being manufactured ASME B94.19-1997 wasapproved by the American National Standards Institute (ANSI) on September 25, 1997 (The following is the roster of the Committee at the time of approval of this Standard.) OFFICERS P Bourg, Chair B P Biddinger, Secretary COMMITTEE PERSONNEL P Bourg, Tivoly, Inc., Derby Line, Vermont A Bratkovich, The Association for Manufacturing Technology, McLean, Virginia E Czopor, E&S Sales, Bloomfield Hills, Michigan D Fischer, The Wapakoneta Machine Co., Wapakoneta, Ohio W Gill, Keen Agers, Inc., Naples, Florida D Lionette, Porter Precision Products, Cincinnati, Ohio M E Merchant, Institute of Advanced Manufacturing Science, Cincinnati, Ohio V Peterson, Kennametal, Solon, Ohio C Preuss, Kingsford Broach and Tool, Inc., Westlake, Ohio C Stockinger, United States Cutting Tool Institute, Cleveland, Ohio J Wherry, Cemented Carbide Producer's Association, Cleveland, Ohio TECHNICAL COMMITTEE 5: MILLING CUTTERS R Moring, Greenfield Industries, Augusta, Georgia Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled wh ASME STANDARDS COMMITTEE B94 Cutting Tools, Holders, Drivers, and Bushings Foreword Standards Committee Roster 111 v Scope Nomenclature 2.1 Definitions 2.2 General Classifications 2.3 Explanation of “Hand” of Milling Cutters Nomenclature 2.4 of Cutter Elements 1 1 Milling Cutter and End Mill Dimensions Milling Cutter and End Mill Elements 5 Milling Cutter and End Mill Tolerances Milling Cutter Terms End Mill Terms Figures I Tables IO I1 12 13 14 15 16 17A 17B 18 19 20 21 Plain Milling Cutters Light Duty: High-speed Steel Plain Milling Cutters Heavy Duty: High-speed Steel Plain Milling Cutters High Helix: High-speed Steel Side Milling Cutters: High-speed Steel Staggered-Tooth Side Milling Cutters: High-speed Steel Half-Side Milling Cutters: High-speed Steel Plain Metal Slitting Saws: High-speed Steel Metal Slitting Saws With Side Teeth: High-speed Steel Metal Slitting Saws With Staggered Peripheraland Side Teeth: High-speed Steel Screw Slotting Cutters: High-speed Steel Single-AngleMilling Cutters With StraightHoles: High-speed Steel 60 deg Single-AngleMilling Cutters With Weldon Shanks:High-speed Steel Double-Angle Milling Cutters: High-speed Steel T-Slot Milling Cutters With Staggered TeethandWeldonShanks: High-speed Steel Woodruff Keyseat MillingCutters.Shank Type:High-speed Steel WoodruffKeyseatMilling Cutters With Staggered Teeth ArborType:High-speed Steel Shell Mills: High-speed Steel Tolerances for Shell Mills: High-speed Steel Convex Milling Cutters Form Relieved: High-speed Steel Concave Milling Cutters Form Relieved: High-speed Steel Comer RoundingMillingCutters.ArborType.FormRelieved: High-speed Steel Comer Rounding Cutters WithWeldonShanks.FormRelieved: High-speed Steel vii 7 9 10 11 11 12 13 13 14 15 16 17 18 18 19 19 20 20 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled w CONTENTS 23A 23 B 24 25 26 27A 27B 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 Roughing Gear MillingCuttersfor Gears With 14'/2 deg PressureAngle, Form Relieved: High-speed Steel Finishing Gear Milling Cutters for Gears With 14'/2 deg PressureAngle,Form Relieved: High-speed Steel Finishing Gear Milling Cutters for Gears With l4y2 deg PressureAngle, Form Relieved: High-speed Steel Gear Milling Cutters forMitreand Bevel Gears With 14v2 deg PressureAngles, Form Relieved: High-speed Steel Roller ChainSprocket MillingCutters, ASMEStandardToothForm,' Form Relieved: High-speed Steel Multiple-Flute,HelicalSeries End Mills, Plain Straight Shanks:High-speed Steel Roughing, Single-End End Mills With Weldon Shanks: High-speed Steel Tolerancesfor Roughing,Single-End End MillsWith WeldonShanks:High-speed Steel : Two-Flute,Single-End, Helical Series EndMillsForKeyway CuttingWith Weldon Shanks: High-speed Steel StubLength, Four-Flute,Medium Helix, Double-EndMiniature End MillsWith 3/16 in Diameter Straight Shanks; High-speed Steel Regular Length, Four-Flute,Medium Helix, Double-End MiniatureEndMills With 3/16 in Diameter Straight Shanks: High-speed Steel LongLength, Four-Flute,MediumHelix, Double-End MiniatureEndMillsWith yl6 in Diameter Straight Shanks: High-speed Steel StubLength,Two-Flute, MediumHelix,Double-EndMiniatureEndMillsWith yl6 in Diameter Straight Shanks: High-speed Steel StubLength,Two-Flute, MediumHelix, Ball End,Double-End Miniature End Mills With 3/16 in Diameter Straight Shanks: High-speed Steel Regular Length,Two-Flute, MediumHelix,Double-EndMiniatureEndMills With 3/16 in Diameter Straight Shanks: High-speed Steel Regular Length,Two-Flute, MediumHelix, Ball End, Double-EndMiniature End Mills With Yl6 in Diameter Straight Shanks: High-speed Steel Long Length,Two-Flute, Medium Helix Double-End Miniature End MillsWith 3/16 in Diameter Straight Shanks: High-speed Steel Regular Length, Multiple-Flute,MediumHelix, Single-End EndMillsWithWeldon Shanks: High-speed Steel Long Length, Multiple-Flute,MediumHelix, Single-End EndMillsWithWeldon Shanks: High-speed Steel Extra LongLength, Multiple-Flute,MediumHelix, Single-End End Mills With Weldon Shanks: High-speed Steel StubLength,Two-Flute, MediumHelix, Single-End End Mills With Weldon Shanks: High-speed Steel Regular Length,Two-Flute, MediumHelix, Single-End EndMillsWithWeldon Shanks: High-speed Steel RegularLength,Two-Flute, MediumHelix, Ball End, Single-End End MillsWith Weldon Shanks: High-speed Steel Long Length,Two-Flute, MediumHelix, Single-End EndMillsWithWeldon Shanks: High-speed Steel LongLength,Two-Flute, MediumHelix, Ball End, Single-End EndMillsWith Weldon Shanks: High-speed Steel , StubLength, Four-Flute,MediumHelix, Double-End EndMillsWithWeldon Shanks: High-speed Steel , Regular Length, Four-Flute,MediumHelix,Double-End End MillsWithWeldon Shanks: High-speed Steel Vlll 21 21 22 23 24 27 28 29 29 30 30 31 32 33 34 35 36 37 37 38 38 39 39 40 41 42 43 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled wh 22 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70A 70B 71A 71B 72A 72B 73 74 Appendix Conversion A Stub Length Two.Flute Medium Helix Double-EndEndMills With Weldon Shanks: High-speed Steel RegularLength Two.Flute Medium Helix Double-EndEndMillsWithWeldon Shanks: High-speed Steel Regular Length Two.Flute MediumHelix Ball End Double-EndEndMillsWith Weldon Shanks: High-speed Steel RegularLength Four.Flute Medium Helix Center Cutting.Single-End End Mills With Weldon Shanks: High-speed Steel Long Length Four.Flute Medium Helix Center Cutting.Single-EndEndMills With Weldon Shanks: High-speed Steel ExtraLongLength Four.Flute Medium Helix Center Cutting Single-End End Mills With Weldon Shanks:High-speed Steel RegularLength Three.Flute Medium Helix Center Cutting.Single-EndEndMills With Weldon Shanks:High-speed Steel Long Length Three.Flute Medium Helix Center Cutting.Single-End End Mills With Weldon Shanks:High-speed Steel RegularLength Four.Flute Medium Helix Center Cutting.Double-EndEndMills With Weldon Shanks: High-speed Steel Regular Length Three.Flute Medium Helix Center Cutting.Double-End End Mills With Weldon Shanks: High-speed Steel Heavy Duty MediumHelix Square End Single-End EndMillsWith in Diameter Shanks: High-speed Steel Heavy Duty MediumHelix Ball End Single-End EndMills With in Diameter Shanks: High-speed Steel Heavy Duty Medium Helix Single.End 2'/2 in EndMills: High-speed Steel Regular Length Two.Flute High Helix Single-End EndMillsWith Weldon Shanks: High-speed Steel Long Length Two.Flute High Helix Single-EndEndMills With Weldon Shanks: HighSpeed Steel Extra Long Length Two.Flute High Helix.Single-End End Mills WithWeldon Shanks: High-speed Steel Four.Flute Center Cutting.Medium Helix Single-End End Mills With Weldon Shanks Ball End Two.Flute Medium Helix Single-End End Mills With Weldon Shanks Long Length Four.Flute Center Cutting.Medium Helix Single-EndEndMills With Weldon Shanks Ball End Four.Flute Medium Helix Single-End End Mills With Weldon Shanks Two.Flute Medium Helix Single-End EndMillsWithWeldon Shanks ExtraLong Length Multiple.Flute Center Cutting.Medium Helix Single-End End MillsWithWeldon Shanks Keys andKeyways for MillingCuttersandArbors Weldon Shanks Tolerances for Weldon Shanks Combination Shanks for End Mills Right-Hand Cut Tolerances for Combination Shanks for EndMills.Right-Hand Cut Combination Shanksfor End Mills Left-Hand Cut Tolerances for Combination Shanksfor End Mills Left-Hand Cut Tolerances for StandardMilling Cutters Tolerances for Standard End Mills Tables From Inch to Millimeter ix 44 45 46 47 47 48 48 49 49 50 51 52 53 53 54 54 55 55 55 55 56 56 57 58 58 59 59 60 60 61 64 67 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled wh 47 Conversion Table From Inch to Millimeter Conversion Table From Inch to Millimeter for Decimal Inch Values Less Than I X 67 68 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled wh Tables A1 A2 72 '14 0.7510 3.8900 3.9000 0.885 'la 0.910 2.9950 3.000 0.8750 0.8760 1.0010 1/'E 1.1260 1.2510 174 372 4'/2 2.4950 3.3700 3.8080 4.2450 2.5000 3.3750 3.8130 4.2500 1.0000 1.1250 1.2500 1.6820 2.0890 1.6870 2.0940 0.5000 0.6250 0.7500 1.2760 0.8388 0.6825 0.4481 1.2810 0.8438 0.6875 0.4531 B 0.3750 0.2500 0.1250 0.0937 GENERAL NOTE: All dimensions are given in inches 1.3850 1.3950 5/16 0.318 0.343 1.0580 1.0630 0.3125 0.3135 " 0.3760 1.9480 1.9580 7/10.448 0.473 1.4950 1.5000 0.4375 0.4385 5; 0.5010 510 0.6260 1Y4 1'/z 194 272 '18 74 0.0947 3/32 0.6985 0.7085 0.130 '18 0.137 0.5575 0.5625 0.1250 0.1260 0.1260 '18 0.9475 0.9575 0.130 '18 0.137 0.8075 0.8125 0.1250 0.1260 0.2510 '14 Arbor Keyway and Hole Keyseat Arbor and Nominal Nominal A ArborSize and Max Min Cutter Max Min Max Key Min Max 78 Cutter HoleKeyway and Arbor and Key 1.035 1.160 1.285 0.785 0.535 0.660 0.410 0.262 0.137 0.106 C 1.010 1.135 1.260 0.760 0.510 0.635 0.385 0.255 0.130 0.099 2.1980 2.7330 3.2650 4.3900 4.9530 5.5150 3.2750 4.4000 4.9630 5.5250 1.6660 1.1040 0.8225 0.5578 Min 2.2080 2.7430 1.6760 1.1140 0.8325 0.5678 D '/I6 '/le '/le 3/16 3/16 7/32 '/z 7/16 "/8 "/, '18 '18 3/32 3/32 3/32 '/le v4 '/le '/E 5/32 '/32 3/64 3/32 '/32 1/16 Vl6 '/32 0.020 Corner Radius Vl6 3/64 H, Nom Max 0.7490 0.8740 0.9990 1.1240 1.2490 0.7495 0.8745 0.9995 1.1245 1.2495 0.0927 0.1240 0.1240 0.1240 0.2490 Min 0.3115 0.3740 0.4365 0.4990 0.6240 E 0.3120 0.3745 0.4370 0.4995 0.6245 0.0932 0.1245 0.1245 0.1245 0.2495 TABLE 69 KEYS AND KEYWAYS FOR MILLING CUTTERS AND ARBORS Arbor and Keyseat T;t+ Corner 3.2500 3.8690 3.8750 4.3750 4.9380 5.5000 1.3690 1.3750 1.6560 1.9320 1.9380 2.1880 2.7180 0.5468 0.6875 0.8125 0.9375 1.0940 Max and Key F 4.9320 5.4940 4.3690 3.2440 2.1820 2.7120 1.6500 0.5408 0.6815 0.8065 0.9315 1.0880 Min A (D (0 f cp $, cn r I- z m z cn D SD rn i G) z c E Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled w MILLING CUTTERS AND END MILLS TABLE 70AWELDONSHANKS Shank Shank Dia, S Length, U '116 1'732 1"/32 '132 %2 "6 l/2 16 74 '16 11/4 1112 2 '/2 '132 '132 2'V16 114 /'2 W Max V Min X V 132 57 164 61 164 0.280 0.330 0.400 0.455 0.455 0.282 0.332 0.402 0.457 0.457 0.325 0.440 0.560 0.675 0.810 1' / a 1' / a 0.515 0.515 0.515 0.700 0.700 0.517 0.517 0.517 0.702 0.702 0.925 1.156 1.406 1.goo 2.400 '12 25 '/a 1/64 3/16 1"/32 1Y16 5; '12 "1 27 132 27 132 TABLE 706 TOLERANCES FOR WELDON SHANKS Dimension Direction Shank Dia, S Shank Length, U V X Y Minus Plus or minus Plus or minus Minus Plus or minus All All All All '/* Range Tolerance sizes sizes sizes sizes to 21/2 incl -0.0001 to -0.0005 GENERAL NOTE: All dimensions are given in inches 58 '132 '164 l/64 1/32 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled w ASME 894.19-1997 ASME 894.19-1997 45 deg I TABLE71A Shank Shank Length, Dia, A 2'V16 '/4 1/2 0.015 f -/ If M Central with K COMBINATION SHANKS' FOR END MILLS, RIGHT-HAND CUT L '/2 27 -4b 12 deg B 3/16 1'732 1'5/~ c D E F G 0.515 0.700 0.700 1.406 1.900 2.400 172 0.515 0.700 0.700 1.371 1.809 2.312 13/4 J K M 1.302 1.772 2.245 0.377 0.440 0.503 'Il6 H /16 a/' y4 NOTE: ( ) Modified for use as a weldon or a pin drive shank TABLE 716 TOLERANCESFOR COMBINATION SHANKS' FOR END MILLS, RIGHT-HAND CUT ection Dimension Shank Dia, A Shank Length, L B C D K Minus Plus or minus Plus or minus Plus Minus -0.0001 to -0.0005 l/32 k 0.002 '164 Plus or minus Plus or minus Minus Plus Plus or minus 0.002 Plus 0.003 GENERAL NOTE: All dimensions are given in inches NOTE: ( ) Modified for use as a weldon or a pin drive shank 59 l/64 0.005 764 k4 '/2 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled w MILLING CUTTERS AND END MILLS o.015 ,-j ,I2 deg , MILLING CUlTERS AND END MILLS M I+ Central with K 90 deg TABLE 72A COMBINATION SHANKS' FOR END MILLS, LEFT-HAND CUT Shank Shank Length, Dia, A L 5; 2 1/2 21Y16 B 3/16 '/4 1/2 11'/16 D E F G 1.406 1.900 1'/2 0.515 0.700 0.700 1.371 C 0.515 0.700 2.400 0.700 13/4 1.809 J H 2.312 /16 '18 '/4 1.302 1.772 0.503 2.245 NOTE: ( ) Modified for use as a weldon or a pin drive shank TABLE 726 TOLERANCES FOR COMBINATION SHANKS' FOR END MILLS, LEFT-HAND CUT Direction Dimension ~ Shank Dia, A Shank Length, L B C D Minus Plus or minus Plus or minus Plus Minus H J Plus or minus Plus or minus Minus Plus Plus or minus K Plus E F G -0.0001 t o -0.0005 l/32 '164 0.002 ' 64 764 0.005 lh4 l/64 0.002 0.003 GENERAL NOTE: All dimensions are given in inches NOTE: ( ) Modified for use as a weldon or a pin drive shank 60 K M 0.377 0.440 '116 '12 '116 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled wh ASME B94.19-1997 MILLING B94.19-1997 TABLE 73 TOLERANCES FOR STANDARD MILLING CUTTERS Outside Diameter Tolerances Plain milling cutters (all types) Side milling cutters Staggered tooth side milling cutters Half side milling cutters Metal slitting saws, all types Screw slotting cutters Single and double angle cutters ounding -0.015 +0.015 +0.015 +0.015 +0.015 +0.015 +0.015 +0.015 -'116 Concave and convex cutters Corner rounding cutters, arbor type Gear and sprocket cutters + '11 Corner +0.010 -0.010 +'/a -0 +'/la + '11 shank type Shell mills T-slot Woodruff keyseat cutters, shank type 1/43/4 incl 7/8-~1/8 incl +0.017 1V4-1 incl +0.015 +o.ooo -'116 -%6 -0.010 +0.010 +0.012 +0.015 +0.020 +0.002 -0.002 Convex +0.002 -0.002 Concave cutters U p t o7/16 in dia of circle incl Over 7/16 in dia of circle +0.004 +0.002 -0.001 -0.002 +0.001 -0.001 -0.001 + 10 '/* type -0.015 -0.015 -0.015 -0.015 -0.015 -0.015 Woodruff arbor keyseat cutters, Circle Diameter Tolerances Corner rounding cutters Up to '/s in radius of circle incl Over in radius of circle 'A ~ _ +0.002 Anale Tolerances Single angle cutters cutters, angle Double + 10 - 10 - 10 + '116 -'116 Overall Length Tolerances Shank t w e cutters Shank Diameter Tolerances ~ ~ -0.0001 All cutters with straight shanks (For weldon shanks, see Tables 67-69) 61 -0.0005 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled wh CUlTERS MILLING CUTTERS AND END MILLS TABLE 73 TOLERANCES FOR STANDARD MILLING CUTTERS (CONTD) Cut Length or CuttingFace Width Tolerances cutters saws slitting and Plain milling cutters Up to in face Over in to in incl Over in to in incl +0.001 +0.010 +0.020 -0.001 -0.000 -0.000 Side milling +0.002 -0.001 Staggered tooth side milling cutters up to 3/4 in face incl Over Y4 in t o in incl +o.oooo +o.oooo -0.0005 -0.0010 Half +0.015 -0.000 Metal +0.001 -0.001 Single +0.015 -0.01 milling T-slot +1/64 + 0.000 Woodruff keyseat cutters, shank type in t o in face incl 3/16 in t o 7/32 in face incl V4 in 5/16 in in - 0.0002 - 0.0003 - 0.0004 - 0.0005 Shell + 0.0000 Woodruff keyseat cutters, arbor type 3/16 in face V4 in face 5/16 in face y8 in face and over - 0.0002 - 0.0003 Roller chain sprocket milling cutters - 0.005 - 0.0005 - 0.0007 - 0.0008 - 0.0009 - 0.0010 - 0.0004 - 0.0005 - 0.0007 - 0.0008 - 0.0009 - 0.0010 + 0.010 - 0.000 + 0.010 Concave and corner rounding cutters, arbor type -k4 - 0.010 Neck Diameter Tolerances T-slot + 0.000 - 0.005 + 0.00075 + 0.0010 + 0.0010 - 0.0000 - 0.0000 - 0.0000 + 0.0010 - 0.0000 Hole Diameter Tolerances in All cutters except shell mills and screw slotting cutters overThrough not if dia, in hole long in over 1Through if dia, in hole in long Over dia through hole in + 0.0005 Shell mills Screw slotting cutters 62 - 0.0000 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled w ASME 894.19-1997 TABLE 73 TOLERANCES FOR STANDARD MILLING CUTTERS (CONT'DI Radial and Axial Runout for Standard Milling Cutters [All Figures are Full Indicator Movement (FIMII Max Radial Runout (When Rotated on a Stationary Shoulder Test Arbor) Nominal Dia Cutter Type of Profile Form Through Relieved Over Arbor type cutters: Side mills Shell mills Keyseat Angular Gear Convex Max Axial Runout (When Rotated on a Stationary Shoulder Test Arbor) Profile Sharpened Form Relieved 0.002 0.003 0.004 0.003 0.004 0.005 0.003 0.004 Sharpened 0.002 0.003 0.005 8'/2 5 0.003 0.004 12 0.003 (see section below) 0.005 (see section below) 0.004 Concave Corner rounding Plain mills Metal slitting saws Screw slotting cutters 0.002 0.003 0.004 All Sizes Axial Runout of Metal Slitting Saws and Screw Slotting Cutters Max Axial Runout (When Clamped Between Standard Dia Collars on Test Arbor) Nominal Diameter Type Cutter of Metal slitting saws and screw slotting cutters Over Through 4 12 5;, Through '132 0.004 0.005 0.005 Nominal Face Width Over thru 1/16 Over '116 thru '/a 0.003 0.003 0.004 0.006 0.008 0.007 Over '/a thru 3/16 0.002 0.003 0.005 0.006 0.0060.007 Over 3/16 Over 1'4 thru 'I4 thru 5/16 0.004 0.005 0.005 Radial Runout of Shank Type Cutters Flute Lenath Type of Cutter Over Shank type cutters Through Max Radial Runout of Periphery With Respect t o Shank (Shank Rotated in Vee Block) 0.002 0.003 0.004 Axial Runout of Shank Type Cutters Type of Cutter Keyseat cutters All others Diameter Over Through All 22/' GENERAL NOTES: (a) All dimensions are given in inches (b) Additional tolerances may be shown in specific tables 63 Max Axial Runout 0.001 0.002 0.003 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled wh All ASME 694.19-1997 MILLING CUlTERS AND END MILLS MILLING MILLS CUTTERS AND END TABLE 74 TOLERANCES FOR STANDARD END MILLS Outside Diameter Tolerances ~~ ~ ~ ~ ~ MEDIUM HELIX SERIES Double end, 3/16 S.S flute [Note (l)] flute, stub and regular length flute, long length [Note (1)1 + 0.003 + 0.000 + 0.003 - 0.000 - 0.0015 - 0.000 + 0.003 - 0.000 + 0.003 + 0.000 - 0.000 - 0.0015 Center cutting single end, weldon shank and flute + 0.003 - 0.000 Center cutting, double end, weldon shank and flute + 0.000 - 0.0015 + 0.005 - 0.000 + 0.003 - 0.000 + 0.003 - 0.000 - 0.0001 - 0.0005 Single end, weldon shank Multiple flute flute, stub length flute, regular and long length + 0.000 + 0.003 Double end, weldon shank flute [Note (1)l flute Heavy duty, single end, in & 2'/2 in shank 2, 3, 4, and flute - 0.0015 - 0.000 ~~~ HIGH HELIX SERIES Single end, weldon shank flute PREMIUM HIGH SPEED STEEL SERIES Center cutting, single end, weldon shank flute and multiple flute Shank Diameter Tolerances Straight shanks weldon (including shanks) (See Tables 62-65 for design features and tolerances for weldon and combination shanks) Length of Cut Tolerances All except miniature and heavy duty Miniature Heavy duty, in & 2'12 in shank 64 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled wh ASME B94.19-1997 MILLING END CUTTERS AND 894.19-1997 TABLE 74 TOLERANCES FOR STANDARD END MILLS (CONT'D) Overall Length Tolerances HSS Except Heavy Duty in D HSS Heavy Duty in D + + %6 Radial Runout Tolerances Maximum Radial Runout of Periphery With Respect to Shank (Shank Rotated in Vee Block) Flute Length Over Through - 2 0.002 0.003 0.004 12 Axial Runout of End Mill Teeth Diameter Over Maximum Axial Runout Throuah 0.002 0.003 GENERAL NOTES: (a) All dimensions are given in inches (b) Additional tolerances may be shown in specific tables NOTE : (1) If the shank is the same diameter as the cutting portion on double-end, straight shank end mills, and where the tolerance is normally positive, the tolerance on the cutting diameter comes +O.OOOO -0.0025 65 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled wh MILLS (This Appendix is not part of ASME 694.19-1997and is included for information only.) Any dimension in this Standard canbe converted by the addition of its components fromthetables in this Appendix Consider the actual or impliedprecision of thevalues TABLE A I in 1/64 732 3/64 16 764 3/32 7/64 78 764 5/32 11 164 4' 13 164 7/32 15 164 '14 17 164 9/32 19 164 mm 0.40 0.79 1.19 1.58 1.98 2.38 2.78 3.18 3.57 3.97 4.37 4.76 5.16 5.56 5.95 6.35 6.75 7.14 7.54 in customary units in determining the number of significant digits toberetained in the SI equivalents (For an explanation of conversion techniques, seeANSI/ IEEE 268-1982, Metric Practice CONVERSION TABLE FROM INCH TO MILLIMETER in 16 21 7.94 8.33 "132 23 8.73 9.13 164 164 3/8 25 164 3/32 27/64 ' in mm 78 41 164 '132 43/64 11 9.52 9.92 /16 45 164 23 132 10.32 10.72 47/64 mm in mm 15.88 16.27 29 132 59 23.02 23.42 16.67 17.07 15 116 61 23.81 24.21 31/32 63 24.61 25.00 17.46 17.86 164 164 4% 18.26 18.65 25.40 50.80 11.51 "164 19.05 19.45 76.20 101.60 11.91 12.30 25 132 51 164 19.84 20.24 127.00 152.40 '12 33 12.70 13.10 13 53 20.64 21.04 177.80 203.20 7/32 35 13.49 13.89 21.43 21.83 10 228.60 254.00 22.22 22.62 11 12 279.40 304.80 2764 15 132 "164 164 164 4' 37 164 19 132 39 164 11.11 "4 116 164 27 132 55 164 14.29 14.68 '18 57/84 15.08 15.48 67 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled w APPENDIX A CONVERSION TABLES FROM INCH TO MILLIMETER in o.xx0 0.xxlO.xx6 O.xx5 o.xx2 O.xx4 O.xx3 o.xx7 O.xx8 0.xx9 0.05 0.30 0.56 0.08 0.33 0.58 0.10 0.36 0.61 0.13 0.38 0.64 0.15 0.41 0.66 0.18 0.43 0.69 0.20 0.46 0.71 0.22 0.48 0.74 0.79 1.04 1.30 0.81 1.07 1.32 0.84 1.09 1.35 0.86 1.12 1.37 0.89 1.14 1.40 0.91 1.17 1.42 0.94 1.19 1.45 0.96 1.22 1.47 0.99 1.24 1.50 1.52 1.78 2.03 1.55 1.80 2.06 1.57 1.83 2.08 1.60 1.85 2.11 1.63 1.88 2.13 1.65 1.90 2.16 1.68 1.93 2.18 1.70 1.96 2.21 1.73 1.98 2.24 1.75 2.01 2.26 0.09 0.10 0.11 2.29 2.54 2.79 2.31 2.57 2.82 2.34 2.59 2.84 2.36 2.62 2.87 2.39 2.64 2.90 2.41 2.67 2.92 2.44 2.69 2.95 2.46 2.72 2.97 2.49 2.74 3.00 2.51 2.77 3.02 0.12 0.13 0.14 3.05 3.30 3.56 3.07 3.33 3.58 3.10 3.35 3.61 3.12 3.38 3.63 3.15 3.40 3.66 3.18 3.43 3.68 3.20 3.45 3.71 3.23 3.48 3.73 3.25 3.50 3.76 3.28 3.53 3.78 0.15 0.16 0.17 3.81 4.06 4.32 3.84 4.09 4.34 3.86 4.11 4.37 3.88 4.14 4.39 3.91 4.17 4.42 3.94 4.19 4.44 3.96 4.22 4.47 3.99 4.24 4.50 4.01 4.27 4.52 4.04 4.29 4.55 0.18 0.19 0.20 4.57 4.83 5.08 4.60 4.85 5.11 4.62 4.88 5.13 4.65 4.90 5.16 4.67 4.93 5.18 4.70 4.95 5.21 4.72 4.98 5.23 4.75 5.00 5.26 4.78 5.03 5.28 4.80 5.05 5.31 0.21 0.22 0.23 5.33 5.59 5.84 5.36 5.61 5.87 5.39 5.64 5.89 5.41 5.66 5.92 5.44 5.69 5.94 5.46 5.72 5.97 5.49 5.74 5.99 5.51 5.77 6.02 5.54 5.79 6.05 5.56 5.82 6.07 0.24 0.25 6.10 6.35 6.12 6.38 6.15 6.40 6.22 6.48 6.25 6.50 6.30 6.55 6.32 6.58 6.68 6.20 6.45 6.27 6.53 6.65 6.17 6.43 0.27 0.28 0.29 6.86 7.11 7.37 6.88 7.14 7.39 6.91 7.16 7.42 6.93 7.19 7.44 6.96 7.21 7.47 7.24 7.49 6.98 7.01 7.26 7.52 7.04 7.29 7.54 7.06 7.32 7.57 7.09 7.34 7.59 0.30 0.31 0.32 7.62 7.87 8.13 7.64 7.90 8.15 7.67 7.92 8.18 7.70 7.95 8.20 7.72 7.98 8.23 7.75 8.00 8.26 7.77 8.03 8.28 7.80 8.05 8.31 7.83 8.08 8.33 7.85 8.10 8.36 0.33 0.34 0.35 8.38 8.64 8.89 8.41 8.66 8.92 8.43 8.69 8.94 8.46 8.71 8.97 8.48 8.74 8.99 8.51 8.76 9.02 8.53 8.79 9.04 8.56 8.81 9.07 8.59 8.84 9.09 8.61 8.86 9.12 0.36 0.37 0.38 9.14 9.40 9.65 9.17 9.42 9.68 9.19 9.45 9.70 9.22 9.47 9.73 9.25 9.50 9.75 9.27 9.52 9.78 9.30 9.55 9.80 9.32 9.58 9.83 9.35 9.60 9.85 9.38 9.63 9.88 0.39 0.40 0.41 9.91 10.16 10.41 9.93 10.19 10.44 9.96 10.21 10.46 9.98 10.24 10.49 10.01 10.26 10.52 10.03 10.29 10.54 10.06 10.31 10.57 10.08 10.34 10.59 10.11 10.36 10.62 10.13 10.39 10.64 0.42 0.43 0.44 10.67 10.92 11.18 10.69 10.95 11.20 10.72 10.97 11.23 10.74 1 oo 11.25 10.77 11.02 11.28 10.80 11.05 11.30 10.82 11.07 11.32 10.85 11.10 11.35 10.87 11.13 11.38 10.90 11.15 11.40 0.45 0.46 0.47 1.43 11.68 11.94 11.46 11.71 11.96 11.48 11.73 11.99 11.51 11.76 12.01 11.53 1.79 12.04 11.56 11.81 12.06 11.58 11.84 12.09 11.61 11.86 12.12 11.63 11.89 12.14 1.66 11.91 12.17 0.00 0.01 0.02 0.00 0.25 0.51 0.03 0.28 0.53 0.03 0.04 0.05 0.76 1.02 1.27 0.06 0.07 0.08 0.26 6.60 6.63 - 6.71 68 6.73 6.76 6.78 6.81 6.83 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled w TABLE A2 CONVERSION TABLE FROM INCH TO MILLIMETER FOR DECIMAL INCH VALUES LESS THAN (DO NOT INTERPOLATE) in o.xx0 0.xxl o.xx2 O.xx3 O.xx4 O.xx5 O.xx6 O.xx7 O.xx8 0.xx9 0.48 0.49 0.50 12.19 12.45 12.70 12.22 12.47 12.73 12.24 12.50 12.75 12.27 12.52 12.78 12.29 12.55 12.80 12.32 12.57 12.83 12.34 12.60 12.85 12.37 12.62 12.88 12.40 12.65 12.90 12.42 12.67 12.93 0.51 0.52 0.53 12.95 13.21 13.46 12.98 13.23 13.49 13.00 13.26 13.51 13.03 13.28 13.54 13.06 13.31 13.56 13.08 13.34 13.59 13.11 13.36 13.61 13.14 13.39 13.64 13.16 13.41 13.67 13.18 13.44 13.69 0.54 0.55 0.56 13.71 13.97 14.22 13.74 14.00 14.25 13.77 14.02 14.27 13.79 14.05 14.30 13.82 14.07 14.33 13.84 14.10 14.35 13.87 14.12 14.38 13.89 14.15 14.40 13.92 14.17 14.43 13.94 14.20 14.45 0.57 0.58 0.59 14.48 14.73 14.99 14.50 14.76 15.01 14.53 14.78 15.04 14.55 14.81 15.06 14.58 14.83 15.09 14.60 14.86 15.11 14.63 14.88 15.14 14.66 14.91 15.16 14.68 14.94 15.19 14.71 14.96 15.21 0.60 0.61 0.62 15.24 15.49 15.75 15.27 15.52 15.77 15.29 15.54 15.80 15.32 15.57 15.82 15.34 15.60 15.85 15.37 15.62 15.88 15.39 15.65 15.90 15.42 15.67 15.93 15.44 15.70 15.95 15.47 15.72 15.98 0.63 0.64 0.65 16.00 16.26 16.51 16.02 16.28 16.54 16.05 16.31 16.56 16.08 16.33 16.59 16.10 16.36 16.61 16.13 16.38 16.64 16.15 16.41 16.66 16.18 16.43 16.69 16.21 16.46 16.71 16.23 16.48 16.74 0.66 0.67 0.68 16.76 17.02 17.27 16.79 17.04 17.30 16.81 17.07 17.32 16.84 17.09 17.35 16.87 17.12 17.37 16.89 17.14 17.40 16.92 17.17 17.42 16.94 17.20 17.45 16.97 17.22 17.48 16.99 17.25 17.50 0.69 0.70 0.71 17.53 17.78 18.03 17.55 17.81 18.06 17.58 17.83 18.08 17.68 17.93 18.19 18.31 18.57 18.82 18.34 18.59 18.85 18.42 18.67 18.92 18.44 18.69 18.95 17.70 17.96 18.21 18.47 18.72 18.97 17.73 17.98 18.24 18.49 18.75 19.00 17.75 18.01 18.26 18.29 18.54 18.80 17.63 17.88 18.14 18.39 18.64 18.90 17.65 17.91 18.16 0.72 0.73 0.74 17.60 17.86 18.11 18.36 18.62 18.87 0.75 0.76 0.77 19.05 19.30 19.56 19.08 19.33 19.58 19.10 19.35 19.61 19.13 19.38 19.63 19.15 19.41 19.66 19.18 19.43 19.68 19.20 19.46 19.71 19.23 19.48 19.74 19.25 19.51 19.76 19.28 19.53 19.79 0.78 0.79 0.80 19.81 20.07 20.32 19.84 20.09 20.35 19.86 20.12 20.37 19.89 20.14 20.40 19.91 20.17 20.42 19.94 20.19 20.45 19.96 20.22 20.47 19.99 20.24 20.50 20.02 20.27 20.52 20.04 20.29 20.55 0.81 0.82 0.83 20.57 20.83 21.08 20.60 20.85 21.11 20.62 20.88 21.13 20.65 20.90 21.16 20.68 20.93 21.18 20.70 20.96 21.21 20.73 20.98 21.23 20.75 21.01 21.26 20.78 21.03 21.29 20.80 21.06 21.31 0.84 0.85 0.86 21.34 21.59 21.84 21.36 21.62 21.87 21.39 21.64 21.89 21.44 21.29 21.95 21.46 21.72 21.97 21.49 21.74 22.00 21.51 21.77 22.02 21.54 21.79 22.05 21.56 21.82 22.07 0.87 0.88 0.89 0.90 0.91 0.92 22.10 22.35 22.61 22.12 22.38 22.63 22.15 22.40 22.66 21.42 21.67 21.92 22.17 22.43 22.68 22.20 22.45 22.71 22.22 22.48 22.73 22.25 22.50 22.76 22.28 22.53 22.78 22.30 22.56 22.81 22.33 22.58 22.83 22.86 23.1 23.37 22.89 23.14 23.39 22.91 23.16 23.42 22.94 23.19 23.44 23.62 23.88 24.13 23.65 23.90 24.16 23.67 23.93 24.18 23.70 23.95 24.21 22.99 23.24 23.50 23.75 24.00 24.26 23.01 23.27 23.52 23.77 24.03 24.28 23.04 23.29 23.55 0.93 0.94 0.95 22.96 23.22 23.47 23.72 23.98 24.23 23.80 24.05 24.31 23.06 23.32 23.57 23.83 24.08 24.33 23.09 23.34 23.60 23.85 24.10 24.36 0.96 0.97 0.98 24.38 24.64 24.89 24.42 24.66 24.92 24.43 24.69 24.94 24.46 24.71 24.97 24.49 24.74 24.99 24.51 24.76 25.02 24.54 24.79 25.04 24.56 24.82 25.07 24.59 24.84 25.10 24.61 24.87 25.12 0.99 25.15 25.17 25.20 25.22 25.25 25.27 25.30 25.32 25.35 25.37 69 18.52 18.77 19.02 Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled w TABLE A2 CONVERSION TABLE FROM INCH TO MILLIMETER FOR DECIMAL INCH VALUES LESS THAN (DO NOT INTERPOLATE) (CONT'D) Reamers 894.2-1995 Straight Cut-Off Blades for Lathes and Screw Machines B94.3-1965(R1995) Knurling B94.6-1984(R1995) Hobs 894.7-1980 (R1995) Inserted Blade Milling Cutter Bodies B94.8-1967(R1987) Taps-cut and GroundThreads B94.9-1987 Twist Drills B94.llM-1993 B94.1 4.1968(R1995) Punches - Basic Head Type Punches - Basic Head Type (Metric) B94.14.1-1977(R1995) Retainers - Basic Ball.Lock, Punch and Die Button, Light and Heavy Duty B94.1 6.1987(R1995) Retainers - Basic Ball.Lock, Punch and Die Button, Light and Heavy Duty (Metric) B94.16.1-1978(R1995) Gages - Functional, Ball-Lock Punches, Die Buttons, and Retainers B94.17-1987(!41995) Gages - Functional, Ball-Lock Punches, Die Buttons, and Retainers (Metric) 894.17.1-1977(R1995) Punches - Basic Ball-Lock Light and Heavy Duty .B94.1 8.1987(R1995) Punches - Basic Ball-Lock Light and Heavy Duty (Metric) B94.18.1-1977(R1995) Milling Cutters and End Mills .B94.19.1997 Gearshaper Cutters B94.21-1968(R1995) B94.22-1968(R1995) Punches-Variable, HeadType Punches - Variable, Head Type (Metric) B94.22.1-1977(!?1995) Punch Guide Bushings - Variable, Press Fit B94.2 3.1969(R1995) Die Buttons - Basic Taper Relief, Press Fit B94.27-1970(R1995) Die Buttons - Basic Taper Relief, Press Fit (Metric) B94.27.1 M.l983(R1995) Die Buttons - Basic Straight Relief, Press Fit B94.2 8.1970(R1995) Die Buttons - Basic Straight Relief, Press Fit (Metric) B94.28.1M.l984(R1995) Die Buttons - Basic Ball.Lock B94.2 9.1970U31995) B94.29.1-1977(R1995) Die Buttons - Basic Ball-Lock (Metric) Die Buttons - Variable, Press Fit B94.3 0.1970(R1995) Steel Rotary Slitting Knives and Steel Spacing Collars 894.31-1981(R1995) Jig Bushings 894.33-1996 Drill Drivers, Split.Sleeve, Collet Type B94.3 5.1972(R1995) Roller Turner Type Cutting Tools, Single-Point B94.37M-l979(R1985) Punches -Variable, Angle Head Type and Related Quill Bushings .B94.3 8.1972(R1995) Punches - Basic, Combination Angle Head Type and Related Quill Bushings 894.39-1972W1995) Punches-WireType B94.40-1972(R1995) Punches - Basic, Angle Head Type and Related Quill Bushings B94.4 1.1972(R1995) Die Buttons - Variable, Press Fit, Headless and Head Type, Step Relief B94.43-1972(R1995) B94.4 4.1972(R1995) Punches - Basic, Cylindrical Head Type and Related Quill Bushings Spade Drill Blades and Spade Drill Holders B94.4 9.1975(R1995) Basic Nomenclature and Definitions for Single-Point Cutting Tools B94.50-1975(R1995) Specifications for Band Saw Blades (Metal Cutting) .B94.51 1111.1994 Specifications for Hacksaw Blades B94.52M-1994 Solid Steel Rectangular Metal Cutting Squaring Shear Knives - Dimensional Tolerances 894.53-1978(R1984) Specifications for HoleSaws, Hole Saw Arbors, and Hole Saw Accessories .B94.5 4.1994 Tool Life Testing with Single-Point Turning Tools B94.55M-l985(Rl995) Gages - Functional, Ball-Lock Punches, Inch ,894.56-1995 B94.56.1M-1995 Gages - Functional, Ball-Lock Punches, Metric The ASME Publications Catalog shows a complete list of all the Standards published by the Society For a complimentary catalog, or the latest information about our publications, call 1-800-THE-ASME (1.800.843.2763) Copyrighted material licensed to Stanford University by Thomson Scientific (www.techstreet.com), downloaded on Oct-05-2010 by Stanford University User No further reproduction or distribution is permitted Uncontrolled w AMERICAN NATIONAL STANDARDS FOR CUTTING TOOLS ASME is committed to developing and delivering technical information At ASME’s Information Central, we make every effort to answer your questions and expedite your orders Our representatives arereadyto assist you in the following areas: ASME Press Codes & Standards Credit Card Orders IMechE Publications Meetings & Conferences Member Dues Status Member Services & Benefits Other Programs ASME Payment Inquiries Professional Development Short Courses Publications Public Information Self-study Courses Shipping Information Subscriptions/Joumals/Magazines Symposia Volumes Technical Papers How can you reach us? 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