Page 6 - Mechanical Engineer's Data Handbook
P. 6
Contents
Preface vii 3.12 Reciprocating air motor 126
3.13 Refrigerators 127
Symbols used in text ix 3.14 Heat transfer i28
3.15 Heat exchangers 137
1. Strength of materials 1 3.16 Combustion of fuels 139
1.1 Types of stress 1
1.2 Strength of fasteners 8 4. Fluid mechanics 146
1.3 Fatigue and stress concentration 17 4.1 Hydrostatics 146
1.4 Bending of beams 24 4.2 Flow of liquids in pipes and ducts 148
1.5 Springs 32 4.3 Flow of liquids through various devices 152
1.6 Shafts 38 4.4 Viscosity and laminar flow 155
1.7 Struts 46 4.5 Fluid jets 157
1.8 Cylinders and hollow spheres 48 4.6 Flow of gases 160
1.9 Contact stress 51 4.7 Fluid machines 165
1.10 Flat plates 53
5. Manufacturing technology 172
2. Appli mechanics 56 5.1 General characteristics of metal processes 172
2.1 Basic mechanics 56 5.2 Turning 173
2.2 Belt drives 65 5.3 Drilling and reaming 178
2.3 Balancing 68 5.4 Milling 182
2.4 Miscellaneous machine elements 70 5.5 Grinding 188
2.5 Automobile mechanics 77 5.6 Cutting-tool materials 189
2.6 Vibrations 79 5.7 General information on metal cutting 192
2.7 Friction 83 5.8 Casting 196
2.8 Brakes, clutches and dynamometers 87 5.9 Metal forming processes 199
2.9 Bearings 90 5.10 Soldering and brazing 205
2.10 Gears 95 5.1 1 Gas welding 207
5.12 Arc welding 210
3. Tbennodyanmics and heat transfer 102 5.13 Limits and fits 216
3.1 Heat 102
3.2 Perfect gases I02 6. Engineering materials 218
3.3 Vapours 106 6.1 Cast irons 218
3.4 Data tables 107 6.2 Carbon steels 219
3.5 Flow through nozzles 111 6.3 Alloy steels 22 1
3.6 Steam plant 112 6.4 Stainless steels 225
3.7 Steam turbines 114 6.5 British Standard specification of steels 228
3.8 Gas turbines 116 6.6 Non-ferrous metals 228
3.9 Heat engine cycles 118 6.7 Miscellaneous metals 233
3.10 Reciprocating spark ignition internal 6.8 Spring materials 235
combustion engines 120 6.9 Powdered metals 236
3.1 1 Air compressors I24 6.10 Low-melting-point alloys 236
