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) |
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Results 1-5 of 64
Page vii
... Speed Tool Steels. 23. Indian Standard Designation of High Speed Tool Steel. 24. Spring Steels. 25. Heat Treatment of Steels. 26. Non-ferrous Metals. 27. Aluminium. 28. Aluminium Alloys. 29. Copper. 30. Copper Alloys. 31. Gun Metal. 32 ...
... Speed Tool Steels. 23. Indian Standard Designation of High Speed Tool Steel. 24. Spring Steels. 25. Heat Treatment of Steels. 26. Non-ferrous Metals. 27. Aluminium. 28. Aluminium Alloys. 29. Copper. 30. Copper Alloys. 31. Gun Metal. 32 ...
Page xiii
... Speed of Smaller Sprocket . 14. Power Transmitted by Chains . 15. Number of Teeth on the Smaller or Driving Sprocket or Pinion . 16. Maximum Speed for Chains . 17. Principal Dimensions of Tooth Profile . 18. Design Procedure for Chain ...
... Speed of Smaller Sprocket . 14. Power Transmitted by Chains . 15. Number of Teeth on the Smaller or Driving Sprocket or Pinion . 16. Maximum Speed for Chains . 17. Principal Dimensions of Tooth Profile . 18. Design Procedure for Chain ...
Page 14
... speed in rad / s , then Power , P = Τ.ω = T × 2 π Ν / 60 watts where N is the speed in r.p.m. ( .. ω = 2 π Ν / 60 ) 2. The ratio of the power output to power input is known as efficiency of a machine . It is always less than unity and ...
... speed in rad / s , then Power , P = Τ.ω = T × 2 π Ν / 60 watts where N is the speed in r.p.m. ( .. ω = 2 π Ν / 60 ) 2. The ratio of the power output to power input is known as efficiency of a machine . It is always less than unity and ...
Page 16
... Speed Tool Steels . 23. Indian Standard Designation of High Speed Tool Steel . 24. Spring Steels . 25. Heat Treatment of Steels . 26. Non - ferrous Metals . 27. Aluminium . 28. Aluminium Alloys . 29. Copper . 30. Copper Alloys . 2.1 ...
... Speed Tool Steels . 23. Indian Standard Designation of High Speed Tool Steel . 24. Spring Steels . 25. Heat Treatment of Steels . 26. Non - ferrous Metals . 27. Aluminium . 28. Aluminium Alloys . 29. Copper . 30. Copper Alloys . 2.1 ...
Page 39
... Speed Tool Steels These steels are used for cutting metals at a much higher cutting speed than ordinary carbon tool steels . The carbon steel cutting tools do not retain their sharp cutting edges under heavier loads and higher speeds ...
... Speed Tool Steels These steels are used for cutting metals at a much higher cutting speed than ordinary carbon tool steels . The carbon steel cutting tools do not retain their sharp cutting edges under heavier loads and higher speeds ...
Contents
1 | |
16 | |
53 | |
87 | |
120 | |
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 |
Chapter 26 Sliding Contact Bearings | 962 |
Chapter 27 Rolling Contact Bearings | 996 |
Chapter 28 Spur Gears | 1021 |
Chapter 29 Helical Gears | 1066 |
Chapter 30 Bevel Gears | 1080 |
Chapter 31 Worm Gears | 1101 |
Chapter 32 Internal Combustion Engine Parts | 1125 |
INDEX | 1215 |
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Common terms and phrases
angle Assuming axial load axis bearing pressure bending moment bending stress bolts brake butt joint cast iron centre centrifugal clutch coefficient of friction coil compressive stress connecting rod cross-sectional area cylinder d₁ Design dimensions distance drum engine equation Example factor of safety fillet weld flange flywheel force fulcrum Given hole Indian standard know that maximum length lever lubrication machine material maximum bending maximum shear stress mean diameter metal metres mm˛ moment of inertia N-mm N/mm˛ outer P₁ pipe piston pitch plate power transmitted pulley r₁ radius ratio resistance rivets rotation screw section modulus shaft shear load shear stress shown in Fig Solution speed spring steel stress concentration stress induced surface T₁ T₂ tangential temperature tensile load tensile stress tension thickness torque transmitted torsional twisting velocity width σ₁