Ultra-short pulsed laser welded-and-cut glass support pillars for vacuum insulating glass

Tara Van Abeelen; Laura-Marie Mueller; Isabell Ayvaz; Franz Paschke; Adrian Dzipalski; Richard M. Carter; Matthew Jan Daniel Esser; Gregor Schwind; Matthias Seel; Duncan Paul Hand

doi:10.1007/s40940-025-00295-2

Ultra-short pulsed laser welded-and-cut glass support pillars for vacuum insulating glass

Tara Van Abeelen^*, Laura-Marie Mueller, Isabell Ayvaz, Franz Paschke, Adrian Dzipalski, Richard M. Carter, Matthew Jan Daniel Esser, Gregor Schwind, Matthias Seel, Duncan Paul Hand

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

Vacuum insulating glass (VIG) has demonstrated competitive Ug-values (heat transfer coefficients) which show promise to further reduce energy consumption from buildings. Support pillars are an essential part of the design as they support the glass panes which would otherwise deform, and potentially collapse, under the pressure differential between the internal vacuum and the external atmosphere, however they act as small thermal bridges which contribute to heat transfer through the panes. The main cause for this is their high thermal conductivity as they are made out of metal. The use of glass support pillars would improve the Ug-value by 10–20% depending on the pillar size and pillar separation. Additionally, a directly bonded glass pillar, made from the same material as the glass panes, without the need for any adhesives, would improve recycling and visual appearance. We demonstrate a new technique for manufacturing glass support pillars using laser welding to bond, and laser cutting to shape the pillar to the substrate glass. We show that these pillars are able to withstand the expected atmospheric compressive force related to a pillar separation of 20 mm with promise for future research.

Original language	English
Article number	10
Journal	Glass Structures and Engineering
Volume	10
Issue number	2
Early online date	28 Apr 2025
DOIs	https://doi.org/10.1007/s40940-025-00295-2
Publication status	Published - Jun 2025

Keywords

Glass pillar
Vacuum insulating glass
Laser welding
Laser cutting
VIG
Glass spacer

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Cite this

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title = "Ultra-short pulsed laser welded-and-cut glass support pillars for vacuum insulating glass",

abstract = "Vacuum insulating glass (VIG) has demonstrated competitive Ug-values (heat transfer coefficients) which show promise to further reduce energy consumption from buildings. Support pillars are an essential part of the design as they support the glass panes which would otherwise deform, and potentially collapse, under the pressure differential between the internal vacuum and the external atmosphere, however they act as small thermal bridges which contribute to heat transfer through the panes. The main cause for this is their high thermal conductivity as they are made out of metal. The use of glass support pillars would improve the Ug-value by 10–20\% depending on the pillar size and pillar separation. Additionally, a directly bonded glass pillar, made from the same material as the glass panes, without the need for any adhesives, would improve recycling and visual appearance. We demonstrate a new technique for manufacturing glass support pillars using laser welding to bond, and laser cutting to shape the pillar to the substrate glass. We show that these pillars are able to withstand the expected atmospheric compressive force related to a pillar separation of 20 mm with promise for future research.",

keywords = "Glass pillar, Vacuum insulating glass, Laser welding, Laser cutting, VIG, Glass spacer",

author = "\{Van Abeelen\}, Tara and Laura-Marie Mueller and Isabell Ayvaz and Franz Paschke and Adrian Dzipalski and Carter, \{Richard M.\} and Esser, \{Matthew Jan Daniel\} and Gregor Schwind and Matthias Seel and Hand, \{Duncan Paul\}",

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doi = "10.1007/s40940-025-00295-2",

language = "English",

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T1 - Ultra-short pulsed laser welded-and-cut glass support pillars for vacuum insulating glass

AU - Van Abeelen, Tara

AU - Mueller, Laura-Marie

AU - Ayvaz, Isabell

AU - Paschke, Franz

AU - Dzipalski, Adrian

AU - Carter, Richard M.

AU - Esser, Matthew Jan Daniel

AU - Schwind, Gregor

AU - Seel, Matthias

AU - Hand, Duncan Paul

N1 - Publisher Copyright: © The Author(s) 2025.

PY - 2025/6

Y1 - 2025/6

N2 - Vacuum insulating glass (VIG) has demonstrated competitive Ug-values (heat transfer coefficients) which show promise to further reduce energy consumption from buildings. Support pillars are an essential part of the design as they support the glass panes which would otherwise deform, and potentially collapse, under the pressure differential between the internal vacuum and the external atmosphere, however they act as small thermal bridges which contribute to heat transfer through the panes. The main cause for this is their high thermal conductivity as they are made out of metal. The use of glass support pillars would improve the Ug-value by 10–20% depending on the pillar size and pillar separation. Additionally, a directly bonded glass pillar, made from the same material as the glass panes, without the need for any adhesives, would improve recycling and visual appearance. We demonstrate a new technique for manufacturing glass support pillars using laser welding to bond, and laser cutting to shape the pillar to the substrate glass. We show that these pillars are able to withstand the expected atmospheric compressive force related to a pillar separation of 20 mm with promise for future research.

AB - Vacuum insulating glass (VIG) has demonstrated competitive Ug-values (heat transfer coefficients) which show promise to further reduce energy consumption from buildings. Support pillars are an essential part of the design as they support the glass panes which would otherwise deform, and potentially collapse, under the pressure differential between the internal vacuum and the external atmosphere, however they act as small thermal bridges which contribute to heat transfer through the panes. The main cause for this is their high thermal conductivity as they are made out of metal. The use of glass support pillars would improve the Ug-value by 10–20% depending on the pillar size and pillar separation. Additionally, a directly bonded glass pillar, made from the same material as the glass panes, without the need for any adhesives, would improve recycling and visual appearance. We demonstrate a new technique for manufacturing glass support pillars using laser welding to bond, and laser cutting to shape the pillar to the substrate glass. We show that these pillars are able to withstand the expected atmospheric compressive force related to a pillar separation of 20 mm with promise for future research.

KW - Glass pillar

KW - Vacuum insulating glass

KW - Laser welding

KW - Laser cutting

KW - VIG

KW - Glass spacer

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DO - 10.1007/s40940-025-00295-2

M3 - Article

C2 - 40309354

SN - 2363-5142

VL - 10

JO - Glass Structures and Engineering

JF - Glass Structures and Engineering

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M1 - 10

ER -

Ultra-short pulsed laser welded-and-cut glass support pillars for vacuum insulating glass

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Keywords

UN SDGs

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