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    Equilibrium-Aware Shape Design for Concrete Printing

    Neue Suche nach: Bhooshan, Shajay
    Neue Suche nach: Mele, Tom
    Neue Suche nach: Block, Philippe

    Abstract This paper proposes an Interactive Design Environment and outlines the underlying computational framework to adapt equilibrium modelling techniques from rigid-block masonry to the multi-phase material typically used in large-scale additive manufacture. It focuses on enabling the synthesis of geometries that are structurally and materially feasible vis-a-vis 3D printing with compression-dominant materials. The premise of the proposed research is that the material printed in layers can be viewed as micro-scale bricks that are initially soft, and harden over time—a kind of micro-stereotomy. This insight, and the observation about the necessity of design exploration yields the principal contributions of the paper: A computational framework that allows for geometric reasoning about shape and exploration of associated design-space, and early, proof-of-concept results.

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    Equilibrium-Aware Shape Design for Concrete Printing

    Neue Suche nach: Bhooshan, Shajay
    Neue Suche nach: Mele, Tom
    Neue Suche nach: Block, Philippe

    Abstract This paper proposes an Interactive Design Environment and outlines the underlying computational framework to adapt equilibrium modelling techniques from rigid-block masonry to the multi-phase material typically used in large-scale additive manufacture. It focuses on enabling the synthesis of geometries that are structurally and materially feasible vis-a-vis 3D printing with compression-dominant materials. The premise of the proposed research is that the material printed in layers can be viewed as micro-scale bricks that are initially soft, and harden over time—a kind of micro-stereotomy. This insight, and the observation about the necessity of design exploration yields the principal contributions of the paper: A computational framework that allows for geometric reasoning about shape and exploration of associated design-space, and early, proof-of-concept results.

    Zugriff

    Zugriff prüfen
    Verfügbarkeit in meiner Bibliothek prüfen
    Bestellung bei Subito €

    Equilibrium-Aware Shape Design for Concrete Printing

    Neue Suche nach: Bhooshan, Shajay
    Neue Suche nach: Mele, Tom
    Neue Suche nach: Block, Philippe

    Abstract This paper proposes an Interactive Design Environment and outlines the underlying computational framework to adapt equilibrium modelling techniques from rigid-block masonry to the multi-phase material typically used in large-scale additive manufacture. It focuses on enabling the synthesis of geometries that are structurally and materially feasible vis-a-vis 3D printing with compression-dominant materials. The premise of the proposed research is that the material printed in layers can be viewed as micro-scale bricks that are initially soft, and harden over time—a kind of micro-stereotomy. This insight, and the observation about the necessity of design exploration yields the principal contributions of the paper: A computational framework that allows for geometric reasoning about shape and exploration of associated design-space, and early, proof-of-concept results.

    Zugriff

    Zugriff prüfen
    Verfügbarkeit in meiner Bibliothek prüfen
    Bestellung bei Subito €

    Zugriff

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    Titel:

    Equilibrium-Aware Shape Design for Concrete Printing

    Beteiligte:

    Bhooshan, Shajay (Autor:in) / Mele, Tom (Autor:in) / Block, Philippe (Autor:in)

    Erschienen in:

    Humanizing Digital Reality ; 493-508

    Erscheinungsdatum:

    16.09.2017

    Format / Umfang:

    16 pages

    ISBN:

    978-981-10-6610-8 , 978-981-10-6611-5

    DOI:

    https://doi.org/10.1007/978-981-10-6611-5_42

    Medientyp:

    Aufsatz/Kapitel (Buch)

    Format:

    Elektronische Ressource

    Sprache:

    Englisch

    Schlagwörter:

    3D printing , Equilibrium modelling , Shape design , Unreinforced masonry , Concrete and clay printing Engineering , Building Construction and Design , Structural Mechanics , Computer-Aided Engineering (CAD, CAE) and Design , Energy Efficiency

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