| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 729549 | Measurement | 2015 | 10 Pages |
•Modelling the function of microstructured workpieces is base for defining the optimal topography.•Simulating functional behaviour gives geometrical parameters and tolerances for manufacturing.•Measurement of manufactured part delivers parameter values of real geometry.•Parameters of real geometry are used as input in functional model.•Simulation delivers the result: degree of capability for requested function.
The evaluation of functional features of manufactured workpieces is based on GO- and NO-GO-test results, which are obtained by comparing measured geometric characteristics with nominal dimensions and tolerances specified by the designer. These geometrical specifications are based on a tolerancing system, which was originally defined for the function mating capability. Against the background of upcoming lots of other new functions (like reduction of flow resistance, light absorption, reduction of friction, diffraction of light, self-cleaning or mass transmission) are to be realized with our products – particularly by micro- and nano scaled features. If the verification process will deliver the prediction of the achievable degree of functionality, the usability of a part can be assessed more accurately and in consequence quality and economics can be improved. So, a new principle for tolerancing and verifying turns out to be necessary. In this paper the fundamental deficit of the actual tolerancing and specification systems GPS and ASME Y14.5 is derived and the path for enlarging the system by preposing a functional model is shown. To verify the functional capability of the workpieces an approach based on simulations done with the parameterized mathematical–physical model of the function is suggested. Advantages of this approach will be discussed and demonstrated by examples with microstructured inking rolls, crankshafts and injection valves.
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