Hybrid laser-assisted forming process for ultralight three-dimensional glass elements

As part of a research project, a new hybrid forming process for ultrathin three-dimensional glass elements was developed. In a continuous process chain, the three-part procedure enables large-area gravity-assisted bending of thin glass, partial deep-drawing of individual small structures using CO2 l...

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Autores principales: Hassel Robin, Barz Andrea, Bliedtner Jens, Steuer Jörg, Pitcha Hans, Eberlein Matthias
Formato: article
Lenguaje:EN
Publicado: EDP Sciences 2021
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Acceso en línea:https://doaj.org/article/bd15e95fd4da45e094539577491f29b1
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spelling oai:doaj.org-article:bd15e95fd4da45e094539577491f29b12021-12-02T17:12:51ZHybrid laser-assisted forming process for ultralight three-dimensional glass elements2100-014X10.1051/epjconf/202125512007https://doaj.org/article/bd15e95fd4da45e094539577491f29b12021-01-01T00:00:00Zhttps://www.epj-conferences.org/articles/epjconf/pdf/2021/09/epjconf_eosam2021_12007.pdfhttps://doaj.org/toc/2100-014XAs part of a research project, a new hybrid forming process for ultrathin three-dimensional glass elements was developed. In a continuous process chain, the three-part procedure enables large-area gravity-assisted bending of thin glass, partial deep-drawing of individual small structures using CO2 laser radiation and cutting of flexible inner and outer contours. Using an experimental setup with a laser scanning system, novel component designs can be generated in a highly flexible and reproducible manner. This can open up new application fields or expand existing ones, for example in the area of cover glasses for display technology.Hassel RobinBarz AndreaBliedtner JensSteuer JörgPitcha HansEberlein MatthiasEDP SciencesarticlePhysicsQC1-999ENEPJ Web of Conferences, Vol 255, p 12007 (2021)
institution DOAJ
collection DOAJ
language EN
topic Physics
QC1-999
spellingShingle Physics
QC1-999
Hassel Robin
Barz Andrea
Bliedtner Jens
Steuer Jörg
Pitcha Hans
Eberlein Matthias
Hybrid laser-assisted forming process for ultralight three-dimensional glass elements
description As part of a research project, a new hybrid forming process for ultrathin three-dimensional glass elements was developed. In a continuous process chain, the three-part procedure enables large-area gravity-assisted bending of thin glass, partial deep-drawing of individual small structures using CO2 laser radiation and cutting of flexible inner and outer contours. Using an experimental setup with a laser scanning system, novel component designs can be generated in a highly flexible and reproducible manner. This can open up new application fields or expand existing ones, for example in the area of cover glasses for display technology.
format article
author Hassel Robin
Barz Andrea
Bliedtner Jens
Steuer Jörg
Pitcha Hans
Eberlein Matthias
author_facet Hassel Robin
Barz Andrea
Bliedtner Jens
Steuer Jörg
Pitcha Hans
Eberlein Matthias
author_sort Hassel Robin
title Hybrid laser-assisted forming process for ultralight three-dimensional glass elements
title_short Hybrid laser-assisted forming process for ultralight three-dimensional glass elements
title_full Hybrid laser-assisted forming process for ultralight three-dimensional glass elements
title_fullStr Hybrid laser-assisted forming process for ultralight three-dimensional glass elements
title_full_unstemmed Hybrid laser-assisted forming process for ultralight three-dimensional glass elements
title_sort hybrid laser-assisted forming process for ultralight three-dimensional glass elements
publisher EDP Sciences
publishDate 2021
url https://doaj.org/article/bd15e95fd4da45e094539577491f29b1
work_keys_str_mv AT hasselrobin hybridlaserassistedformingprocessforultralightthreedimensionalglasselements
AT barzandrea hybridlaserassistedformingprocessforultralightthreedimensionalglasselements
AT bliedtnerjens hybridlaserassistedformingprocessforultralightthreedimensionalglasselements
AT steuerjorg hybridlaserassistedformingprocessforultralightthreedimensionalglasselements
AT pitchahans hybridlaserassistedformingprocessforultralightthreedimensionalglasselements
AT eberleinmatthias hybridlaserassistedformingprocessforultralightthreedimensionalglasselements
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