DOI: 10.3390/jcs10070353 ISSN: 2504-477X

Bio-Inspired Functional Freedom: Additive Manufacturing Enables Roof Handle Design

Xueping Guo

The integration of additive manufacturing technology and biomimetic design provides new possibilities for functional and aesthetic innovation in automotive interiors. This study explores a roof handrail design method based on a spider web biomimetic structure from the perspectives of object character and design freedom. By transforming the spider web morphology of nature into a manufacturable parametric model, the organic unity of structural performance and visual aesthetics has been achieved. The simulation results show that the spider web biomimetic structure handrail distributed along the z-axis not only meets the mechanical performance (maximum stress of 189.11 MPa under 1500 N load) but also theoretically reduces weight by 32.03% compared to traditional designs. Material testing shows that the spider web biomimetic structure handrail made of PA6-CF material through fused deposition molding not only meets safety requirements but also has a better user experience. This study achieved organic forms that are difficult to process with traditional techniques through 3D printing technology, providing a new paradigm of “form following ecology” for automotive interior design and expanding the possibilities of functional components in user experience and spatial narrative.

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