TY - JOUR
T1 - Laser powder bed fusion of soda lime silica glass: Optimisation of processing parameters and evaluation of part properties
AU - Datsiou, Kyriaki Corinna
AU - Spirrett, Fiona
AU - Ashcroft, Ian
AU - Magallanes, Marlin
AU - Christie, Steve
AU - Goodridge, Ruth
N1 - © 2021 The Authors. Published by Elsevier B.V. his is an open access article under the CC BY license. https://creativecommons.org/licenses/by/4.0/
PY - 2021/3/1
Y1 - 2021/3/1
N2 - Glass has a number of attractive properties, such as transparency, chemical resistance, good thermal stability and high electrical resistivity, that make it a favourable material for a range of applications, including medical technology, electronics, chemical and pharmaceutical industries. However, compared to metals and polymers, the additive manufacturing of glass is still at a primitive stage. The inherent material properties of glass, i.e. its amorphous structure, lack of ductility and high processing temperatures, make processing of glass by additive manufacturing challenging. This paper describes the laser powder bed fusion of a soda lime silica glass. Optimisation of the laser powder bed fusion process was undertaken and the physical and mechanical properties of the manufactured parts were characterised revealing an average porosity of 12%, a mean flexural strength of 6.5 MPa and a fully amorphous structure. Feasibility examples were successfully demonstrated, indicating that geometrically complex shapes are possible. Even though the manufactured parts are opaque, they could potentially find use in applications where the need for chemical inertness and geometrical complexity surpass the need for transparency as in the chemical and pharmaceutical industries e.g. in the form of continuous flow reactors or structured catalysts.
AB - Glass has a number of attractive properties, such as transparency, chemical resistance, good thermal stability and high electrical resistivity, that make it a favourable material for a range of applications, including medical technology, electronics, chemical and pharmaceutical industries. However, compared to metals and polymers, the additive manufacturing of glass is still at a primitive stage. The inherent material properties of glass, i.e. its amorphous structure, lack of ductility and high processing temperatures, make processing of glass by additive manufacturing challenging. This paper describes the laser powder bed fusion of a soda lime silica glass. Optimisation of the laser powder bed fusion process was undertaken and the physical and mechanical properties of the manufactured parts were characterised revealing an average porosity of 12%, a mean flexural strength of 6.5 MPa and a fully amorphous structure. Feasibility examples were successfully demonstrated, indicating that geometrically complex shapes are possible. Even though the manufactured parts are opaque, they could potentially find use in applications where the need for chemical inertness and geometrical complexity surpass the need for transparency as in the chemical and pharmaceutical industries e.g. in the form of continuous flow reactors or structured catalysts.
KW - Additive manufacturing
KW - Glass
KW - Laser powder bed fusion
KW - Property characterisation
UR - http://www.scopus.com/inward/record.url?scp=85101011375&partnerID=8YFLogxK
U2 - 10.1016/j.addma.2021.101880
DO - 10.1016/j.addma.2021.101880
M3 - Article
SN - 2214-8604
VL - 39
JO - Additive Manufacturing
JF - Additive Manufacturing
M1 - 101880
ER -