A Textbook of Machine DesignTEXT BOOK FOR THE STUDENTS OF B.E. / B.TECH. , U.P.S.E. (ENGG. SERVICES) ; SECTION 'B' OF A.M.I.E. (I) |
Contents
| 1 | |
| 16 | |
| 53 | |
| 87 | |
Chapter 05 Torsional and Bending Stresses in Machine Parts | 120 |
Chapter 06 Variable Stresses in Machine Parts | 181 |
Chapter 07 Pressure Vessels | 224 |
Chapter 08 Pipes and Pipe Joints | 261 |
Chapter 18 Flat Belt Drives | 677 |
Chapter 19 Flat Belt Pulleys | 715 |
Chapter 20 VBelt and Rope Drives | 727 |
Chapter 21 Chain Drives | 759 |
Chapter 22 Flywheel | 776 |
Chapter 23 Springs | 820 |
Chapter 24 Clutches | 885 |
Chapter 25 Brakes | 917 |
Chapter 09 Riveted Joints | 281 |
Chapter 10 Welded Joints | 341 |
Chapter 11 Screwed Joints | 377 |
Chapter 12 Cotter and Knuckle Joints | 431 |
Chapter 13 Keys and Coupling | 470 |
Chapter 14 Shafts | 509 |
Chapter 15 Levers | 558 |
Chapter 16 Columns and Struts | 600 |
Chapter 17 Power Screws | 624 |
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Common terms and phrases
According acting allowable angle applied Assuming axial axis bearing belt bending bending stress bolts brake cast iron centre clutch coefficient of friction compressive compressive stress connecting Considering cotter coupling cross-section crushing cylinder Design Determine diameter dimensions direct discussed distance double drive effect efficiency energy engine equal equation Example factor flange flywheel force Given heat hole increase induced inner joint known length lever limit load machine material maximum mean metal modulus moment N-mm Note obtained outer permissible pipe pitch plate pressure pulley radius ratio resistance rivets rope rotation screw shaft shear stress shown in Fig side Solution speed spring standard steel strength subjected surface Table taken Taking tensile stress tension thickness threads turning weld width wire