《Design and manufacturing（ME371、ME337）》课程教学资源（参考教材）《Shigley’s Mechanical Engineering Design》（Richard G. Budynas、J. Keith Nisbett，Ninth Edition）

Shigleys Mechanical Engineering Design Ninth Edition Richard G.Budynas and J.Keith Nisbett

Conversion Factors A to Convert Input X to Output YUsing the Formula Y=AX Multiply Input By Factor To Get Output Multiply Input By Factor To Get Output A X A British thermal 1055 joule,J mile/hour,mi/h 1.61 kilometer/hour,km/h unit,Btu mile/hour,mi/h 0.447 meter/second,m/s Btu/second,Btu/s 1.05 kilowatt,kw moment of inertia, 0.0421 kilogram-meter2, calorie 4.19 joule,J Ibm.f2 kg·m2 centimeter of 1.333 kilopascal,kPa moment of inertia, 293 kilogram-millimeter2, mercury (0 C) lbm.in2 kg·mm2 centipoise,cP 0.001 pascal-second, moment of section 41.6 centimeter4,cm4 Pa·s (second moment degree (angle) 0.0174 radian,rad of area),in4 foot,ft 0.305 meter,m ounce-force,oz 0.278 newion,N foot?,2 0.0929 meter2,m2 ounce-mass 0.0311 kilogram,kg foot/minute, 0.0051 meter/second,m/s pound,lbf 4.45 newton,N ft/min pound-foot, 1.36 newton-meter foot-pound,ft.Ibf 1.35 joule,J bf.t N.m foot-pound/ 1.35 watt,W pound/foot2,Ibf/f2 47.9 pascal,Pa second,ft.Ibf/s pound-inch,Ibf.in 0.113 joule,J foot/second,ft/s 0.305 meter/second,m/s pound-inch,lbf.in 0.113 newton-meter, gallon (U.S.).gal 3.785 liter,L N.m horsepower,hp 0.746 kilowatt,kW pound/inch,lbf/in 175 newton/meter,N/m inch,in 0.0254 meter,m pound/inch2,psi 6.89 kilopascal,kPa inch,in 25.4 millimeter,mm (lbf/in2) inch2,in2 0.454 645 mil诽imeter2,mm2 pound-mass,Ibm kilogram,kg inch of mercury 0.454 3.386 kilopascal,kPa pound-mass/ kilogram/second, second,Ibm/s (32F kg/s milliliter,mL kilopound,kip 4.45 kilonewton,kN quart (U.S.liquid),gt 946 16.4 kilopound/inch2 6.89 megapascal,MPa section modulus,in3 centimeter3,cm3 kpsi (ksi) (N/mm2) slug 14.6 kilogram,kg mass,lbf.s2/in 175 kilogram,kg ton (short 2000 lbm) 907 kilogram,kg mile,mi 1.610 kilometer,km yard,yd 0.914 meter,m Appeme The U.Cusomry syemtfpsoshomthe pouhsIm

ISBN: 0073529281 Author: Budynas / Nisbett Title: Shigley’s Mechanical Engineering Design, 8e Front endsheets Color: 2C (Black & PMS 540 U) Pages: 2,3

I Physical Constants of Materials Modulus of Modulus of Elasticity E Rigidity G Poisson's Unit Weight w Material Mpsi GPa Mpsi GPa Ratio y Aluminum (all alloys) 10.4 71.7 3.9 26.9 0.333 0.098 169 26.6 Beryllium copper 18.0 124.0 7.0 48.3 0.285 0.297 513 80.6 Brass 15.4 106.0 5.82 40.1 0.324 0.309 534 83.8 Carbon steel 30.0 207.0 11.5 79.3 0.292 0.282 487 76.5 Cast iron (gray) 14.5 100.0 6.0 41.4 0.211 0.260 450 70.6 Copper 17.2 119.0 6.49 44.7 0.326 0.322 556 87.3 Douglas fir 1.6 11.0 0.6 4.1 0.33 0.016 28 4.3 Glass 6.7 46.2 2.7 18.6 0.245 0.094 162 25.4 Inconel 31.0 214.0 11.0 75.8 0.290 0.307 530 83.3 Lead 5.3 36.5 1.9 13.1 0.425 0.411 710 111.5 Magnesium 6.5 44.8 2.4 16.5 0.350 0.065 112 17.6 Molybdenum 48.0 331.0 17.0 117.0 0.307 0.368 636 100.0 Monel metal 26.0 179.0 9.5 65.5 0.320 0.319 551 86.6 Nickel silver 18.5 127.0 7.0 48.3 0.322 0.316 546 85.8 Nickel steel 30.0 207.0 11.5 79.3 0.291 0.280 484 76.0 Phosphor bronze 16.1 111.0 6.0 41.4 0.349 0.295 510 80.1 Stainless steel (18-8) 27.6 190.0 10.6 73.1 0.305 0.280 484 76.0 Titanium alloys 16.5 114.0 6.2 42.4 0.340 0.160 276 43.4

ISBN: 0073529281 Author: Budynas / Nisbett Title: Shigley’s Mechanical Engineering Design, 8e Front endsheets Color: 2C (Black & PMS 540 U) Pages: 2,3

Shigley's Mechanical Engineering Design

Shigley’s Mechanical Engineering Design bud29281_fm_i-xxii_1.qxd 12/24/09 3:38 PM Page i epg Disk1:Desktop Folder:TEMPWORK:Don't-Delete Jobs:MHDQ196/Budynas:

McGRAW-HILL SERIES IN MECHANICAL ENGINEERING Alciatore/Histand: Introduction to Mechatronics and Measurement Systems Anderson: Computational Fluid Dynamics:The Basics with Applications Anderson: Fundamentals of Aerodynamics Anderson: Introduction to Flight Anderson: Modern Compressible Flow Barber: Intermediate Mechanics of Materials Beer/Johnston: Vector Mechanics for Engineers:Statics and Dynamics Beer/Johnston: Mechanics of Materials Budynas: Advanced Strength and Applied Stress Analysis Budynas/Nisbett: Shigley's Mechanical Engineering Design Byers/Dorf: Technology Ventures:From Idea to Enterprise Cengel: Heat and Mass Transfer:A Practical Approach Cengel: Introduction to Thermodynamics Heat Transfer Cengel/Boles: Thermodynamics:An Engineering Approach Cengel/Cimbala: Fluid Mechanics:Fundamentals and Applications Cengel/Turner: Fundamentals of Thermal-Fluid Sciences Crespo da Silva: Intermediate Dynamics Dieter: Engineering Design:A Materials Processing Approach Dieter: Mechanical Metallurgy Doebelin: Measurement Systems:Application Design Dunn: Measurement Data Analysis for Engineering Science EDS,Inc.: I-DEAS Student Guide Finnemore/Franzini: Fluid Mechanics with Engineering Applications Hamrock/Schmid/Jacobson: Fundamentals of Machine Elements Heywood: Internal Combustion Engine Fundamentals Holman: Experimental Methods for Engineers Holman: Heat Transfer Hutton: Fundamentals of Finite Element Analysis Kays/Crawford/Weigand: Convective Heat and Mass Transfer Meirovitch: Fundamentals of Vibrations Norton: Design of Machinery Palm: System Dynamics Reddy: An Introduction to Finite Element Method Schaffer et al.: The Science and Design of Engineering Materials Schey: Introduction to Manufacturing Processes Smith/Hashemi: Foundations of Materials Science and Engineering Turns: An Introduction to Combustion:Concepts and Applications Ugural: Mechanical Design:An Integrated Approach Ullman: The Mechanical Design Process White: Fluid Mechanics White: Viscous Fluid Flow Zeid: CAD/CAM Theory and Practice Zeid: Mastering CAD/CAM

McGRAW-HILL SERIES IN MECHANICAL ENGINEERING Alciatore/Histand: Introduction to Mechatronics and Measurement Systems Anderson: Computational Fluid Dynamics: The Basics with Applications Anderson: Fundamentals of Aerodynamics Anderson: Introduction to Flight Anderson: Modern Compressible Flow Barber: Intermediate Mechanics of Materials Beer/Johnston: Vector Mechanics for Engineers: Statics and Dynamics Beer/Johnston: Mechanics of Materials Budynas: Advanced Strength and Applied Stress Analysis Budynas/Nisbett: Shigley’s Mechanical Engineering Design Byers/Dorf: Technology Ventures: From Idea to Enterprise Çengel: Heat and Mass Transfer: A Practical Approach Çengel: Introduction to Thermodynamics & Heat Transfer Çengel/Boles: Thermodynamics: An Engineering Approach Çengel/Cimbala: Fluid Mechanics: Fundamentals and Applications Çengel/Turner: Fundamentals of Thermal-Fluid Sciences Crespo da Silva: Intermediate Dynamics Dieter: Engineering Design: A Materials & Processing Approach Dieter: Mechanical Metallurgy Doebelin: Measurement Systems: Application & Design Dunn: Measurement & Data Analysis for Engineering & Science EDS, Inc.: I-DEAS Student Guide Finnemore/Franzini: Fluid Mechanics with Engineering Applications Hamrock/Schmid/Jacobson: Fundamentals of Machine Elements Heywood: Internal Combustion Engine Fundamentals Holman: Experimental Methods for Engineers Holman: Heat Transfer Hutton: Fundamentals of Finite Element Analysis Kays/Crawford/Weigand: Convective Heat and Mass Transfer Meirovitch: Fundamentals of Vibrations Norton: Design of Machinery Palm: System Dynamics Reddy: An Introduction to Finite Element Method Schaffer et al.: The Science and Design of Engineering Materials Schey: Introduction to Manufacturing Processes Smith/Hashemi: Foundations of Materials Science and Engineering Turns: An Introduction to Combustion: Concepts and Applications Ugural: Mechanical Design: An Integrated Approach Ullman: The Mechanical Design Process White: Fluid Mechanics White: Viscous Fluid Flow Zeid: CAD/CAM Theory and Practice Zeid: Mastering CAD/CAM bud29281_fm_i-xxii_1.qxd 12/24/09 3:38 PM Page ii epg Disk1:Desktop Folder:TEMPWORK:Don't-Delete Jobs:MHDQ196/Budynas: