Sage Journals: Discover world-class research

Abstract

An approach for robust design of mechanical systems using experimental design techniques is presented. Performance and achievement of functional requirements depend critically on variations on the geometry, dimensions, and positions of the system components. These variations arise due to limitations imposed by the capabilities of manufacturing processes, the tight control of which can be prohibitively expensive. This paper presents an approach for achieving robust designs which are less sensitive to these variations. Two formulations are used where manufacturing tolerances are considered as: (1) control variables; and (2) noise variables beyond the designer's control. Orthogonal arrays and analysis of variance are used to detect the most important design parameters to ensure performance robustness. The proposed design methodology is illustrated using a finger follower cam valve system. A comparison with other conventional design approaches is included.

Keywords

robust design geometric tolerances orthogonal arrays concurrent engineering.

Get full access to this article

View all access options for this article.

References

R.G. Askin and J.B. Goldberg , "Economic Optimization In Product Design ", Engineering Optimization, Vol. 14, 1988, pp. 139-152.

K.W. Chase , W.H. Greenwood , B.G. Loosli , and L.F. Hauglund , "Least Cost Tolerance Allocation For Mechanical Assemblies With Automated Process Selection ", Manufacturing Review, Vol. 3, No. 1, 1990, pp. 49-59.

D.J. Wilde , "A Counter-example To Signal-to-noise Ratio as a Measure of Design Robustness", Advances In Design Automation , Vol. 32-1, 1991, pp. 233-234.

G. Taguchi , A. ElSayed , and T.C. Hsiang , Quality Engineering In Production Systems, McGraw Hill , New York, 1989.

G. Box , "Signal-to-noise Ratios, Performance Criteria and Transformations", Technometrics, Vol. 30, No. 1, 1988, pp. 1-17.

G. Box , "Discussion", Journal Of Quality Technology, Vol. 17, No. 4, 1985, pp. 189-190.

G. Box , S. Bisgaard , and C. Fung , "An Explanation And Critique Of Taguchi's Contributions To Quality Engineering", Quality and Reliability Engineering International, Vol. 4, 1988, 123-131.

J.D'errico and N.A. Zaino , "Statistical Tolerancing Using A Modification Of Taguchi's Method", Technometrics, Vol. 30, No. 4, 1988, pp. 397-405.

J.S. Hunter , "Statistical Design Applied To Product Design ", Journal Of Quality Technology, Vol. 17, No. 4, 1985, pp. 210-221.

10.

W.J. Kim , H.S. Jeon , and Y.S. Park , "Contact Force Prediction and Experimental Verification On An OHC Finger Follower Type Cam Valve Type", Journal Of Experimental Mechanics, 1991, pp. 150-156.

11.

W. Michael and J.N. Siddall , "The Optimal Tolerance Assignment With Less Than Full Acceptance", ASME Journal Of Mechanical Design , Vol. 104, 1982, pp. 855-860.

12.

N.P. Suh , The Principles Of Design, Oxford University Press , New York, 1990.

13.

R.N. Kackar , "Off Line Quality Control, Parameter Design, and the Taguchi Method", Journal Of Quality Technology, Vol. 17, No. 4, 1985, pp. 176-187.

14.

R. Leon , A. Shoemaker , and R.N. Kackar , "Performance Measures Independent Of Adjustment", Technometrics, Vol. 29, No. 3, 1986, pp. 253-265.

15.

Z. Wu , W.H. Elmaraghy , and H.A. Elmaraghy , "Evaluation Of Cost-Tolerance Algorithms For Design Tolerance Analysis and Synthesis", Manufacturing Review, Vol. 1, No. 3,1988, pp. 168-179.

A Concurrent Engineering Approach To Robust Product Design

Abstract

Keywords

Get full access to this article

References