Efficient and reconfigurable engine and product development with 3D parametric design

Gerhard Witwer, Stefan Dierneder, Christian Rudig

    Research output: Chapter in Book/Report/Conference proceedingConference proceedingspeer-review

    Abstract

    The engineering and design of modern products and systems with high functionality for instance production systems for steel, paper or plastic, but also of machine tools, mostly necessitates adaptations to customer specific requirements. Especially for material processing machinery, the enormous throughput and resource consumption on the one hand and the relatively low profit margin on the other hand make tailor-made systems the preferred solution over standard systems. 3D CAD parametric design is a powerful tool for making this engineering process more effective and economic. Most effort is taken to the setting up of the parameter models to identify the lead and dependent parameters and the rules deriving the latter from the first. In general, 3D parametric design represents a useful middle course to handle the assumed inconsistence between flexibility and standardization best. Finally, by 3D parametric design significant cost savings and quality improvements of the overall engineering and design process of modern plants, especially process oriented machinery have been achieved.
    Original languageEnglish
    Title of host publicationThe 12th Mechatronics Forum Biennial International Conference
    Editors IWF, ETHZ Zurich
    Pages155-162
    Number of pages8
    Volume2/2
    Publication statusPublished - Jun 2010

    Fields of science

    • 101 Mathematics
    • 102 Computer Sciences
    • 202 Electrical Engineering, Electronics, Information Engineering
    • 202009 Electrical drive engineering
    • 202027 Mechatronics
    • 202034 Control engineering
    • 202036 Sensor systems
    • 203 Mechanical Engineering
    • 203033 Hydraulic drive technology

    JKU Focus areas

    • Mechatronics and Information Processing

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