Abstract
The collaborative application characteristics of parametric design and 3D printing in complex shape packaging containers are studied. By comparing and summarizing the advantages and disadvantages and causes of the three key factors of ‘scheme formulation (modeling), material selection and process, data acquisition (data modeling) and model generation’ in the collaborative application of parametric design and 3D printing in the prototype development and customization process of packaging containers. The characteristics and optimization inspiration of the collaborative application of parametric design and 3D printing to packaging containers are analyzed with cases. This paper discusses how to solve the problem of container modeling and diversified customization of fine structure in parametric design of packaging container, and Lists some suggestions for future research topics.
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Acknowledgements
Phased Research Results of Tianjin 2010 Philosophical and Social Science Research Plan Funding Project ‘Practical Research on School-enterprise Cooperation to Improve the Core Competence of Tianjin Characteristic Cultural Tourism Products’ (Approval No. TJYY10-2-449).
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Zhao, S. (2023). Research on Collaborative Application of Parametric Design and 3D Printing Based on Complex Shape Packaging Container. In: Xu, M., Yang, L., Zhang, L., Yan, S. (eds) Innovative Technologies for Printing and Packaging. CACPP 2022. Lecture Notes in Electrical Engineering, vol 991. Springer, Singapore. https://doi.org/10.1007/978-981-19-9024-3_27
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DOI: https://doi.org/10.1007/978-981-19-9024-3_27
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