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 168
... parameters have just single values , whereas distributed parameters have many values spread over a field in space . The mathematical model of a lumped - parameter system is expressed by differential equations , and a distributed ...
... parameters have just single values , whereas distributed parameters have many values spread over a field in space . The mathematical model of a lumped - parameter system is expressed by differential equations , and a distributed ...
Page 255
... parameters , ( 2 ) nondiscriminating parameters , and ( 3 ) discriminating parameters . Go / no - go parameters are those requirements which must meet a certain fixed minimum value . Any merit in exceeding the fixed value will not make ...
... parameters , ( 2 ) nondiscriminating parameters , and ( 3 ) discriminating parameters . Go / no - go parameters are those requirements which must meet a certain fixed minimum value . Any merit in exceeding the fixed value will not make ...
Page 579
A Materials and Processing Approach George Ellwood Dieter. Parameter design is the process of identifying the settings of the design parameters or process variables that reduce the sensitivity of the design to sources of variation . In ...
A Materials and Processing Approach George Ellwood Dieter. Parameter design is the process of identifying the settings of the design parameters or process variables that reduce the sensitivity of the design to sources of variation . In ...
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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