Alan Parkinson scite author profile

Tolerance analysis is receiving renewed emphasis as industry recognizes that tolerance management is a key element in their programs for improving quality, reducing overall costs and retaining market share. The specification of tolerances is being elevated from a menial task to a legitimate engineering design function. New engineering models and sophisticated analysis tools are being developed to assist design engineers in specifying tolerances on the basis of performance requirements and manufacturing considerations. This paper presents an overview of tolerance analysis applications to design with emphasis on recent research that is advancing the state of the art. Major topics covered are:1) New models for tolerance accumulation in mechanical assemblies, including the Motorola Six Sigma model. 2) Algorithms for allocating the specified assembly tolerance among the components of an assembly.3) The development of 2-D and 3-D tolerance analysis models. 4) Methods which account for non-Normal statistical distributions and nonlinear effects. 5) Several strategies for improving designs through the application of modern analytical tools.

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A General Approach for Robust Optimal Design

Parkinson

1993

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This paper describes a general, rigorous approach for robust optimal design. The method allows a designer to explicitly consider and control, as an integrated part of the optimization process, the effects of variability in design variables and parameters on a design. Variability is defined in terms of tolerances which bracket the variation of fluctuating quantities. A designer can apply tolerances to any model input and can analyze how the tolerances affect the design using either a worst case or statistical analysis. As part of design optimization, the designer can apply the method to find an optimum that will remain feasible when subject to variation, and/or the designer can minimize or constrain the effects of tolerances as one of the objectives or constraints of the design problem.

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Development of an automatic, two‐dimensional finite element mesh generator using quadrilateral elements and Bezier curve boundary definition

Talbert

Parkinson

1990

Numerical Meth Engineering

124

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SUMMARYThis paper describes the development of an automatic, two-dimensional, quadrilateral element mesh generator. The methodology is based on the looping algorithm developed in part by Dr M. L. C. Sluiter. Bezier curves are used to define the boundaries of the parts to be meshed. The required interaction by the user is reduced to specifying the boundary geometry, the preferred element size and the refinement coefficient. Transition elements are automatically generated between regions of varying element sizes. The ability to offset specified boundary curves insures well-conditioned elements along the boundary. Meshes for several sample geometries are presented to illustrate the versatility of the mesh generator.

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Engineering Study Abroad Programs: Formats, Challenges, Best Practices

Parkinson

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Alan Parkinson

A survey of research in the application of tolerance analysis to the design of mechanical assemblies

A General Approach for Robust Optimal Design

Development of an automatic, two‐dimensional finite element mesh generator using quadrilateral elements and Bezier curve boundary definition

Engineering Study Abroad Programs: Formats, Challenges, Best Practices

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