Thick-shell papercreate membrane: a mean to pliant architecture / Duane Jay V. Soliva; Alexis Ken S. Cartagenas, adviser
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TextPublication details: 2018Description: 153 leavesSubject(s): Dissertation note: Thesis (BS Architecture) University of the Philippines Mindanao, 2018 Abstract: Pliant architecture is flexible architecture that gives an exceptional degree of freedom in architectural design. Recently, BubbleDeck technology offered an innovatory method of reducing structural self-weight of slabs. The technology uses hollow spherical balls made by recycled plastic to eliminate concrete parts of the slab that does not contribute to the structural performance. In this study, BubbleDeck technology was replicated by using papercrete instead of concrete producing the Thick-Shell Papercrete Membrane (TSPM) TSPM used catenary shaped balls to optimize the shape of the voided papercrete. Also, in this study effect of various factors to the behaviors of the TSPM are considered, such as the papercrete strength, the shape and diameter of the balls, and the size of the reinforcing mesh. In order to demonstrate the superiority and advances of the TSPM, a comparative experiment was conducted with a solid papercrete slab. The research results show the effectiveness and feasibility of the application of the TSPM in the construction industry in Davao City, Philippines.
| Item type | Current library | Collection | Call number | Status | Date due | Barcode |
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Thesis
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University Library General Reference | Room-Use Only | LG993.5 2018 A7 S65 (Browse shelf(Opens below)) | Available | 3UPML00025575 | |
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Thesis
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University Library Archives and Records | Non-Circulating | LG993.5 2018 A7 S65 (Browse shelf(Opens below)) | Available | 3UPML00041112 |
Thesis (BS Architecture) University of the Philippines Mindanao, 2018
Pliant architecture is flexible architecture that gives an exceptional degree of freedom in architectural design. Recently, BubbleDeck technology offered an innovatory method of reducing structural self-weight of slabs. The technology uses hollow spherical balls made by recycled plastic to eliminate concrete parts of the slab that does not contribute to the structural performance. In this study, BubbleDeck technology was replicated by using papercrete instead of concrete producing the Thick-Shell Papercrete Membrane (TSPM) TSPM used catenary shaped balls to optimize the shape of the voided papercrete. Also, in this study effect of various factors to the behaviors of the TSPM are considered, such as the papercrete strength, the shape and diameter of the balls, and the size of the reinforcing mesh. In order to demonstrate the superiority and advances of the TSPM, a comparative experiment was conducted with a solid papercrete slab. The research results show the effectiveness and feasibility of the application of the TSPM in the construction industry in Davao City, Philippines.
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