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Journal of Quality Technology
A Quarterly Journal of Methods, Applications and Related Topics
Volume 33, 2001 - Issue 3
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Articles

Tolerance Analysis Tailored to Your Organization

Spencer GravesProductive Systems Engineering, San José, CA95126View further author information
Pages 293-303 | Published online: 20 Feb 2018

References

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  • Bisgaard, S., and Graves, S. (1997). “A Negative Process Capability Index from Assembling Good Components?”. Quality Engineering 10, pp. 409–414.
  • Brandenberger, H. (1946). Toleranzen, Passung und Konstruktion. Schweizer Druck- und Verlagshaus, Zürich, Switzerland.
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  • Grant, E. L. (1946). Statistical Quality Control. McGraw-Hill, New York, NY.
  • Graves, S. B. (1998). “A Total Cost Comparison of Alternative Tolerancing Formulae”. Journal of Manufacturing Science and Engineering 121, pp. 720–726.
  • Graves, S. B. and Bisgaard, S. (2000). “Five Ways Statistical Tolerancing Can Fail, and What to Do about Them”. Quality Engineering 13, pp. 85–93.
  • Harry, M. J. (1992). “The Vision of Six Sigma Quality: Producibility Measurement and Analysis” in Tolerance and Deviation Information edited by V. A. Tipinis. American Society of Mechanical Engineers, New York, NY, pp. 41–64.
  • Kepner, C. H. and Tregoe, B. B. (1976). The Rational Manager, 2nd ed. Kepner-Tregoe, Princeton, NJ.
  • Liggett, J. V. (1993). Dimensional Variation Management Handbook. Prentice Hall, Englewood Cliffs, NJ.
  • Pearn, W. L. and Chen, K. S. (1997). “A Practical Implementation of the Process Capability Index Cpk“. Quality Engineering 9, pp. 721–737.
  • Rüdenberg, R. (1929). “Die Beurteilung elektrischer Maschinen und Apparate durch Toleranzen auf Grund statistischer Methoden”. Zeitschrift für angewandte Mathematik und Mechanik 9 (August) 318–334; reprinted in H. C. Plaut (1930), Fabrikationskontrolle auf Grund statistischer Methoden, Berlin: VDI-Verlag, pp. 40–56.

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