Additive Manufacturing Strategy for Ultra-Lightweight High Value-Added Components. Catar, L., Tabiai, I., & St-Onge, D. In Volume 5: 27th Design for Manufacturing and the Life Cycle Conference (DFMLC), pages V005T05A001, St. Louis, Missouri, USA, August, 2022. American Society of Mechanical Engineers.
Additive Manufacturing Strategy for Ultra-Lightweight High Value-Added Components [link]Paper  doi  abstract   bibtex   
Abstract Additive manufacturing and its growth in advanced industrial fields are changing many process paradigms for the development of highly customizable components. It condenses the traditional approaches to produce assemblies that are more and more integrated at different levels: functionality (strength, lightness), productivity (flexibility, customization) and development (passage from the digital part to the final part). This work presents a methodology to help select a combination of possibilities (materials, process, etc.). Derived from the double diamond method, this methodology aims to propose a rationalization of the choices available to designers of high value-added products with strict and mutually intertwined requirements. The whole methodology is then illustrated with the design of an indoor aerostat drone which illustrates the implementation of some of the key elements of the proposed process.
@inproceedings{catar_additive_2022,
	address = {St. Louis, Missouri, USA},
	title = {Additive {Manufacturing} {Strategy} for {Ultra}-{Lightweight} {High} {Value}-{Added} {Components}},
	isbn = {978-0-7918-8625-0},
	url = {https://asmedigitalcollection.asme.org/IDETC-CIE/proceedings/IDETC-CIE2022/86250/V005T05A001/1150499},
	doi = {10.1115/DETC2022-88458},
	abstract = {Abstract
            Additive manufacturing and its growth in advanced industrial fields are changing many process paradigms for the development of highly customizable components. It condenses the traditional approaches to produce assemblies that are more and more integrated at different levels: functionality (strength, lightness), productivity (flexibility, customization) and development (passage from the digital part to the final part).
            This work presents a methodology to help select a combination of possibilities (materials, process, etc.). Derived from the double diamond method, this methodology aims to propose a rationalization of the choices available to designers of high value-added products with strict and mutually intertwined requirements. The whole methodology is then illustrated with the design of an indoor aerostat drone which illustrates the implementation of some of the key elements of the proposed process.},
	urldate = {2022-11-22},
	booktitle = {Volume 5: 27th {Design} for {Manufacturing} and the {Life} {Cycle} {Conference} ({DFMLC})},
	publisher = {American Society of Mechanical Engineers},
	author = {Catar, Louis and Tabiai, Ilyass and St-Onge, David},
	month = aug,
	year = {2022},
	pages = {V005T05A001},
}
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