Abstract
The additively manufacturable products are emerging as a part of modern product revolution and innovation. This paper discusses the application of bio-inspired design in making the additively manufacturable spin coater as a case study. As a part of this, the method called multi-inspirational design for additive manufacturing (MiDAM) is proposed. The application of method is resulted in the additively manufacturable, low cost and affordable spin coater, with scope for tunable resonance vibration just by varying the dimensional and material parameters. The possibility for installing the dampers in the designed form contributes to better vibration isolation, still maintaining the aesthetic appearance. Further, the work shows the possibility of exploiting the bio-inspired design to support additive manufacturing of different products.
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Acknowledgements
Authors would like to acknowledge help extended by Ms. Hemalatha V. for data acquisition.
This work was supported by the DST-SERB under Grant ECR/2017/001462; DST-RFBR under Grant INT/RUS/RFBR/P-262.
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Shetty, P.P., Krupakhar, G., Bingi, J. (2021). Multi-inspirational Design for Additively Manufacturable Products. In: Chakrabarti, A., Poovaiah, R., Bokil, P., Kant, V. (eds) Design for Tomorrow—Volume 3. Smart Innovation, Systems and Technologies, vol 223. Springer, Singapore. https://doi.org/10.1007/978-981-16-0084-5_15
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DOI: https://doi.org/10.1007/978-981-16-0084-5_15
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