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Modelling and Optimal Design of a Carbon Fibre Reinforced Composite Automotive Roof

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Abstract.

Structural optimisation was used to carry out the design of an all-composite roof for a late model passenger car. CAD modelling procedures were used to develop the simplified geometric model of the composite roof starting with production CAD data and to create a shell mesh. The shell element roof model was combined with a beam model of the entire body in order to carry out the full-body optimis-ation. Optimisation results yielded a roof which was 71% lighter than the steel automotive roof, which weighed 94 lb (42.7 kg). Although this paper focuses on the use of commercially available software, it demonstrates a level of automation which is not typically used in the automotive industry.

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Authors and Affiliations

  1. Vehicle Analysis and Dynamics Laboratory, GM R&D Center, Warren, MI, USA, , , , , , US

    M. E. Botkin

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  1. M. E. Botkin
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Botkin, M. Modelling and Optimal Design of a Carbon Fibre Reinforced Composite Automotive Roof. EWC 16, 16–23 (2000). https://doi.org/10.1007/s003660050033

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  • DOI: https://doi.org/10.1007/s003660050033

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