Engineering Design: A Materials and Processing ApproachThis popular engineering design text covers the many factors influencing the design process, including technical, social, and economic considerations. Covered in detail is the topic of "materials selection" (the author's forte). This edition includes, material on computer aided design and new problems and exercises throughout. The text is aimed at the senior level course in design offered in both mechanical and materials science engineering departments. |
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Page 172
... load P. W 2 α Punch m bending moment at any point C on the mid - thickness of the sheet is M2 = N [ x + μ ( y + 2 ) ] for x < a Mx = Ma for x = a ( 4-5 ) where x = a is the point at which the sheet starts to wrap over the punch and Ma ...
... load P. W 2 α Punch m bending moment at any point C on the mid - thickness of the sheet is M2 = N [ x + μ ( y + 2 ) ] for x < a Mx = Ma for x = a ( 4-5 ) where x = a is the point at which the sheet starts to wrap over the punch and Ma ...
Page 173
... load vs. displacement curve is shown in Fig . 4-9 . Plastic deformation does not occur unless a critical load P , is exceeded . At some value Pmax the load reaches a maximum and then decreases for increasing values of displacement ...
... load vs. displacement curve is shown in Fig . 4-9 . Plastic deformation does not occur unless a critical load P , is exceeded . At some value Pmax the load reaches a maximum and then decreases for increasing values of displacement ...
Page 174
... load vs. angle values . The exact load and angle are found by interpolation of the known values . The detailed calculations required to solve this brake bending model have been incorporated into an interactive computer program . ' Thus ...
... load vs. angle values . The exact load and angle are found by interpolation of the known values . The detailed calculations required to solve this brake bending model have been incorporated into an interactive computer program . ' Thus ...
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alloys analysis application assembly basic bending cash flow castings Chap complete components concept constraints corrosion cost crack creative curve cycle decision depreciation design process detailed determine dimensional analysis dimensions distribution economic elements engineering design equations equipment estimate evaluation example experience expert system factor factory overhead failure fatigue fatigue limit FIGURE finite element analysis forging fracture fracture mechanics Handbook heat important increased investment John Wiley linear linear programming load machine manufacturing process martensite materials selection matrix McGraw-Hill Book Company mechanical method mold objective function operation optimization optimum overhead parameters percent performance plant plastic polymers Powder Metallurgy problem residual stress shape sheet simulation situation solution specific standard statistical steel Table techniques temperature thermal thickness tolerances tool usually utility variables welding Wiley & Sons wire frame models yield strength York