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 334
... residual stress over thickness of sheet ( schematic ) . residual stress that is produced by inhomogeneous deformation will be opposite the sign of the plastic strain that produced the residual stress . Thus , for the case of the rolled ...
... residual stress over thickness of sheet ( schematic ) . residual stress that is produced by inhomogeneous deformation will be opposite the sign of the plastic strain that produced the residual stress . Thus , for the case of the rolled ...
Page 335
... residual stress pattern . Practically , all cold - working operations develop residual stresses because of non - uniform plastic flow . In surface - working operations , such as shot peening , surface rolling , or polishing , the ...
... residual stress pattern . Practically , all cold - working operations develop residual stresses because of non - uniform plastic flow . In surface - working operations , such as shot peening , surface rolling , or polishing , the ...
Page 339
... residual surface stress . The removal or reduction in the intensity of residual stress is known as stress relief . Stress relief may be accomplished either by heating or by mechanical working operations . Although residual stresses will ...
... residual surface stress . The removal or reduction in the intensity of residual stress is known as stress relief . Stress relief may be accomplished either by heating or by mechanical working operations . Although residual stresses will ...
Contents
The Design Process | 1 |
Design in a Broader Context | 54 |
212 | 74 |
Copyright | |
24 other sections not shown
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alloys analysis applied ASME assembly BREAK STRENGTH castings clip complete components concept corrosion cost crack curve cycle database decision design process detailed determine dimensional analysis distribution elements engineering design equations evaluation example experience expert system factor factor of safety failure fatigue FIGURE forging fracture fracture mechanics function given Handbook heat important increased investment limit linear programming machine manufacturing process martensite material properties materials selection matrix McGraw-Hill Book Company mechanical method normal distribution null hypothesis objective function operation optimization outer array parameters patent percent performance plastic probability problem product liability reliability residual stress sample Society solution specific standard statistical steel surface Table technical techniques temperature tolerances tool unit usually variables Weibull distribution welding Wiley & Sons yield strength York