ProtoSpray: Combining 3D Printing and Spraying to Create Interactive Displays with Arbitrary Shapes

Ollie Hanton; Michael Wessely; Stefanie Mueller; Mike Fraser; Anne  Roudaut

ProtoSpray: Combining 3D Printing and Spraying to Create Interactive Displays with Arbitrary Shapes

Ollie Hanton, Michael Wessely, Stefanie Mueller, Mike Fraser, Anne Roudaut

Research output: Contribution to conference › Paper › peer-review

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Abstract

ProtoSpray is a fabrication method that combines 3D printing and spray coating, to create interactive displays of arbitrary shapes. Our approach makes novel use of 3D printed conductive channels to create base electrodes on 3D shapes. This is then combined with spraying active materials to produce illumination. We demonstrate the feasibility and benefits of this combined approach in 6 evaluations exploring different shaped topologies. We analyze factors such as spray orientations, surface topologies and printer resolutions, to discuss how spray nozzles can be integrated into traditional 3D printers. We present a series of ProtoSprayed objects demonstrating how our technique goes beyond existing fabrication techniques by allowing creation of displays on objects with curvatures as complex as a Mobius strip. Our work provides a platform to empower makers to use displays as a fabrication material.

Original language	English
Number of pages	13
Publication status	Published - 23 Apr 2020

Funding

This work was supported by the Engineering and Physical Sciences Research Council (EP/M021882/1 and EP/P004342/1) and the Faculty of Engineering of the University of Bristol.

Funders	Funder number
Not added	EP/M021882/1, EP/P004342/1

Keywords

3D Printing, Spraying, Display, Electroluminescence, Rapid Prototyping, Fabrication

Access to Document

ProtoSprayPaperFinal published version, 3.99 MBLicence: Unspecified

Cite this

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title = "ProtoSpray: Combining 3D Printing and Spraying to Create Interactive Displays with Arbitrary Shapes",

abstract = "ProtoSpray is a fabrication method that combines 3D printing and spray coating, to create interactive displays of arbitrary shapes. Our approach makes novel use of 3D printed conductive channels to create base electrodes on 3D shapes. This is then combined with spraying active materials to produce illumination. We demonstrate the feasibility and benefits of this combined approach in 6 evaluations exploring different shaped topologies. We analyze factors such as spray orientations, surface topologies and printer resolutions, to discuss how spray nozzles can be integrated into traditional 3D printers. We present a series of ProtoSprayed objects demonstrating how our technique goes beyond existing fabrication techniques by allowing creation of displays on objects with curvatures as complex as a Mobius strip. Our work provides a platform to empower makers to use displays as a fabrication material.",

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T1 - ProtoSpray: Combining 3D Printing and Spraying to Create Interactive Displays with Arbitrary Shapes

AU - Hanton, Ollie

AU - Wessely, Michael

AU - Mueller, Stefanie

AU - Fraser, Mike

AU - Roudaut, Anne

PY - 2020/4/23

Y1 - 2020/4/23

N2 - ProtoSpray is a fabrication method that combines 3D printing and spray coating, to create interactive displays of arbitrary shapes. Our approach makes novel use of 3D printed conductive channels to create base electrodes on 3D shapes. This is then combined with spraying active materials to produce illumination. We demonstrate the feasibility and benefits of this combined approach in 6 evaluations exploring different shaped topologies. We analyze factors such as spray orientations, surface topologies and printer resolutions, to discuss how spray nozzles can be integrated into traditional 3D printers. We present a series of ProtoSprayed objects demonstrating how our technique goes beyond existing fabrication techniques by allowing creation of displays on objects with curvatures as complex as a Mobius strip. Our work provides a platform to empower makers to use displays as a fabrication material.

AB - ProtoSpray is a fabrication method that combines 3D printing and spray coating, to create interactive displays of arbitrary shapes. Our approach makes novel use of 3D printed conductive channels to create base electrodes on 3D shapes. This is then combined with spraying active materials to produce illumination. We demonstrate the feasibility and benefits of this combined approach in 6 evaluations exploring different shaped topologies. We analyze factors such as spray orientations, surface topologies and printer resolutions, to discuss how spray nozzles can be integrated into traditional 3D printers. We present a series of ProtoSprayed objects demonstrating how our technique goes beyond existing fabrication techniques by allowing creation of displays on objects with curvatures as complex as a Mobius strip. Our work provides a platform to empower makers to use displays as a fabrication material.

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M3 - Paper

ER -

ProtoSpray: Combining 3D Printing and Spraying to Create Interactive Displays with Arbitrary Shapes

Abstract

Funding

Keywords

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