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3D printed glass: surface finish and bulk properties as a function of the printing process

3D printed glass: surface finish and bulk properties as a function of the printing process
3D printed glass: surface finish and bulk properties as a function of the printing process
It is impossible to print glass directly from a melt, layer by layer. Glass is not only very sensitive to temperature gradients between different layers but also to the cooling process. To achieve a glass state the melt, has to be cooled rapidly to avoid crystallization of the material and then annealed to remove cooling induced stress. In 3D-printing of glass the objects are shaped at room temperature and then fired. The material properties of the final objects are crucially dependent on the frit size of the glass powder used during shaping, the chemical formula of the binder and the firing procedure. For frit sizes below 250 μm, we seem to find a constant volume of pores of less than 5%. Decreasing frit size leads to an increase in the number of pores which then leads to an increase of opacity. The two different binders, 2-hydroxyethyl cellulose and carboxymethylcellulose sodium salt, generate very different porosities. The porosity of samples with 2-hydroxyethyl cellulose is similar to frit-only samples, whereas carboxymethylcellulose sodium salt creates a glass foam. The surface finish is determined by the material the glass comes into contact with during firing.
3D printing, Bulk properties, Firing, Glass, Surface finish
1368-6798
Klein, Susanne
79ce7333-46cc-41b3-81ab-89ae33922ad4
Avery, Michael P.
560a71b4-e741-4c49-bb04-eaa3273ebbdd
Richardson, Robert M.
40f055f4-abfa-4152-b332-a06470ecc6a4
Bartlett, Paul
ba9cb28a-df97-481e-81e9-0544949f6de0
Frei, Regina
fa00170f-356a-4a0d-8030-d137fd855880
Simske, Steven J.
7c081128-0d78-4282-847e-e7ac1c0d756c
Klein, Susanne
79ce7333-46cc-41b3-81ab-89ae33922ad4
Avery, Michael P.
560a71b4-e741-4c49-bb04-eaa3273ebbdd
Richardson, Robert M.
40f055f4-abfa-4152-b332-a06470ecc6a4
Bartlett, Paul
ba9cb28a-df97-481e-81e9-0544949f6de0
Frei, Regina
fa00170f-356a-4a0d-8030-d137fd855880
Simske, Steven J.
7c081128-0d78-4282-847e-e7ac1c0d756c

Klein, Susanne, Avery, Michael P., Richardson, Robert M., Bartlett, Paul, Frei, Regina and Simske, Steven J. (2015) 3D printed glass: surface finish and bulk properties as a function of the printing process. HP Laboratories Technical Report, (4).

Record type: Article

Abstract

It is impossible to print glass directly from a melt, layer by layer. Glass is not only very sensitive to temperature gradients between different layers but also to the cooling process. To achieve a glass state the melt, has to be cooled rapidly to avoid crystallization of the material and then annealed to remove cooling induced stress. In 3D-printing of glass the objects are shaped at room temperature and then fired. The material properties of the final objects are crucially dependent on the frit size of the glass powder used during shaping, the chemical formula of the binder and the firing procedure. For frit sizes below 250 μm, we seem to find a constant volume of pores of less than 5%. Decreasing frit size leads to an increase in the number of pores which then leads to an increase of opacity. The two different binders, 2-hydroxyethyl cellulose and carboxymethylcellulose sodium salt, generate very different porosities. The porosity of samples with 2-hydroxyethyl cellulose is similar to frit-only samples, whereas carboxymethylcellulose sodium salt creates a glass foam. The surface finish is determined by the material the glass comes into contact with during firing.

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More information

Published date: 1 January 2015
Keywords: 3D printing, Bulk properties, Firing, Glass, Surface finish

Identifiers

Local EPrints ID: 432720
URI: http://eprints.soton.ac.uk/id/eprint/432720
ISSN: 1368-6798
PURE UUID: bff8c01f-d48e-4da8-b54c-44d1ebae37a8
ORCID for Regina Frei: ORCID iD orcid.org/0000-0002-0953-6413

Catalogue record

Date deposited: 25 Jul 2019 16:30
Last modified: 09 Jan 2022 04:07

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Contributors

Author: Susanne Klein
Author: Michael P. Avery
Author: Robert M. Richardson
Author: Paul Bartlett
Author: Regina Frei ORCID iD
Author: Steven J. Simske

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