During the emergency caused by COVID 19 evidence has been provided about the risk of easily getting the virus by touching contaminated surfaces and then by touching eyes, mouth, or nose with infected hands. In view of the restarting of daily activities in presence, it is paramount to put in place any strategy that, in addition to social distancing, is capable to positively impact on the safety levels in public buildings by reducing such risk. The main aim of this paper is to conceive a design methodology, based on a digital, flawless, and sustainable procedure, for producing human-building interfacing solutions that allow anybody to interact in a safer and more comfortable way. Such solutions are focused on the adaptation of existing buildings features and are thought to be an alternative to sensor based touchless technology when this is not applicable due to economic or time constraints. The process is based on the integration of digital technologies such as 3D Scanning, Generative Design and Additive Manufacturing and is optimised to be intuitive and to be adaptive, hence, to be replicable on different kinds of surfaces. The design concept is finalised to generate automatically different products that meet geometry fitting requirements and therefore adapt to the specific geometries of existing handles. A specific case on Hands Free Door Handles is presented and the results of manufacturing and preliminary validation process are provided and discussed.

De Crescenzio F., Fantini M., Asllani E. (2022). Generative design of 3D printed hands-free door handles for reduction of contagion risk in public buildings. INTERNATIONAL JOURNAL ON INTERACTIVE DESIGN AND MANUFACTURING, 16(1), 253-261 [10.1007/s12008-021-00825-6].

Generative design of 3D printed hands-free door handles for reduction of contagion risk in public buildings

De Crescenzio F.
Methodology
;
Asllani E.
Software
2022

Abstract

During the emergency caused by COVID 19 evidence has been provided about the risk of easily getting the virus by touching contaminated surfaces and then by touching eyes, mouth, or nose with infected hands. In view of the restarting of daily activities in presence, it is paramount to put in place any strategy that, in addition to social distancing, is capable to positively impact on the safety levels in public buildings by reducing such risk. The main aim of this paper is to conceive a design methodology, based on a digital, flawless, and sustainable procedure, for producing human-building interfacing solutions that allow anybody to interact in a safer and more comfortable way. Such solutions are focused on the adaptation of existing buildings features and are thought to be an alternative to sensor based touchless technology when this is not applicable due to economic or time constraints. The process is based on the integration of digital technologies such as 3D Scanning, Generative Design and Additive Manufacturing and is optimised to be intuitive and to be adaptive, hence, to be replicable on different kinds of surfaces. The design concept is finalised to generate automatically different products that meet geometry fitting requirements and therefore adapt to the specific geometries of existing handles. A specific case on Hands Free Door Handles is presented and the results of manufacturing and preliminary validation process are provided and discussed.
2022
De Crescenzio F., Fantini M., Asllani E. (2022). Generative design of 3D printed hands-free door handles for reduction of contagion risk in public buildings. INTERNATIONAL JOURNAL ON INTERACTIVE DESIGN AND MANUFACTURING, 16(1), 253-261 [10.1007/s12008-021-00825-6].
De Crescenzio F.; Fantini M.; Asllani E.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/874396
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