Design for Six Sigma, Chapter 16 - Tolerance Design
Here is a chapter from an updated Design for Six Sigma, Second Edition, which has extensive new chapters and learning modules on innovation, lean product development, computer simulation, and critical parameter management--plus new thread-through case studies. This updated edition provides unrivalled real-world product development experience and priceless walk-throughs that help you choose the right design tools at every stage of product and service development. The book includes detailed directions, careful comparisons, and work-out calculations that make every step of the Design for Six Sigma process easier.
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2req ance Assembly Clearance Assembly tolerance stackup assume Automobile body panels bacteria bacteria count Chap computer simulation cost-based optimal tolerance current tolerance customer requirement customer tolerance limit derive design parameter tolerances design problem erance limit exact transfer function Example flow rate function equation functional requirements high-level requirement inductor Input internal repair cost Interval for Values Lagrange multiplier level Ti 32 linear function linear statistical tolerance low-level characteristic xi low-level variances lower-level nominal design parameter nominal value nonlinear normally distributed output voltage parameter design power supply circuit process control data process variable tolerances pump design quadratic curve quality loss function random variables relationship requirements and tolerances resistor RL Circuits robust design Six Sigma specification standard deviation statistical tolerance design Step target value tensile strength tion tolerance allocation tolerance analysis tolerance design experiment tolerance design methods tolerances are determined tomer Traditional tolerance Transmitted variation Var(y VarTran