Abstract
Upcycling enables new product production out of discarded materials. This paper presents a new structured process to support designers to use discarded HDPE plastic bags as useful and meaningful materials for creative exploration. The proposed process involves a four-step fabrication workflow using tools and machines widely available in design studios: (1) preparing a stack of plastic sheets, (2) fusing the stack of materials to create a new plastic sheet with intended thickness, (3) cutting and scoring the fused sheet to create parts, and (4) assembling the parts to build 3D artifacts. To assist the fabrication, we also present a custom design software as an add-on to an existing CAD environment and describe how we developed the fabrication-aware design features through a workshop with seven students. We demonstrate the feasibility and creative potential of the design and fabrication process by four application examples and expert reviews with three product designers.
Keywords
upcycling plastic bags, product design, creative reuse
DOI
https://doi.org/10.21606/drs.2022.266
Citation
Deshpande, H., Yu, J., Talyan, A., Posner, N., Zheng, C., and Oh, H. (2022) Upcycling discarded HDPE plastic bags for creative exploration in product design, in Lockton, D., Lenzi, S., Hekkert, P., Oak, A., Sádaba, J., Lloyd, P. (eds.), DRS2022: Bilbao, 25 June - 3 July, Bilbao, Spain. https://doi.org/10.21606/drs.2022.266
Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License
Conference Track
Research Paper
Included in
Upcycling discarded HDPE plastic bags for creative exploration in product design
Upcycling enables new product production out of discarded materials. This paper presents a new structured process to support designers to use discarded HDPE plastic bags as useful and meaningful materials for creative exploration. The proposed process involves a four-step fabrication workflow using tools and machines widely available in design studios: (1) preparing a stack of plastic sheets, (2) fusing the stack of materials to create a new plastic sheet with intended thickness, (3) cutting and scoring the fused sheet to create parts, and (4) assembling the parts to build 3D artifacts. To assist the fabrication, we also present a custom design software as an add-on to an existing CAD environment and describe how we developed the fabrication-aware design features through a workshop with seven students. We demonstrate the feasibility and creative potential of the design and fabrication process by four application examples and expert reviews with three product designers.