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Once an accurate simulation model has been created, engineers typically make design changes in order to achieve desired insertion and retention forces. The first part of this study discusses an effective approach to using OptiStruct for the implicit finite element analysis of snap-fits. The geometric, material, and contact nonlinearities associated with snap-fit problems can present modeling challenges. Snap-fits are ubiquitous engineering features used to quickly and inexpensively assemble plastic parts. As the manufacturer of refrigerated display cases and systems, they have to maintain the highest performance and quality standards of the products they develop.
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Hussmann provides tailored food safety solutions designed to improve food quality and integrity.
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In this white paper, a suitable FE model of a joining process clinching is built using the metal forming simulator AFDEX and then the process is optimized using the multidisciplinary optimization software HyperStudy from Altair. To efficiently manage innovative products, organizations are turning to a Model-Based Development approach for concept studies, control design, multi-domain system simulation and optimization. Today, most products are complex mechatronic combinations of advanced technologies, mixing electrical parts with controllers and embedded software. This technical paper offers insights on how the advanced drivetrain development team at Porsche AG, together with Altair, has approached the challenge of improving the total design balance in e-motor development.
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The project described in this paper is focused on multiphysics design of an e-motor for Porsche AG.
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Multi-disciplinary and multiphysics optimization methodologies make it possible to design an e-motor for multiple, completely different design requirements simultaneously, thus avoiding a serial development strategy, where a larger number of design iterations are necessary to fulfill all requirements and unfavorable design compromises need to be accepted. Today, an e-motor cannot be developed just by looking at the motor as an isolated unit tight requirements concerning the integration into both the complete electric or hybrid drivetrain system and perceived quality must be met. To assure manufacturability, molding and assembly simulations are performed to identify and mitigate problems likely to occur throughout the process. Within this presentation different aspects of the product design cycle are considered, including co-simulations of the device operation during the actual injection process, misuse in case of forceful bending or opening of the loading tray, and drop tests of the autoinjector. Nolato specializes in polymer-based product design and manufacturing to virtually design a device to automatically inject medicines, such as insulin for diabetic patients.