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Reduction of shadowing effect during laser cladding of fused silica glass using sub-micron powders

Reduction of shadowing effect during laser cladding of fused silica glass using sub-micron powders
Reduction of shadowing effect during laser cladding of fused silica glass using sub-micron powders

Fused silica glass is a commonly used high-performance material in scientific and industrial applications, due to the exceptional optical, mechanical and thermal properties. However, its production can be challenging and expensive due to the high processing temperatures required, in both manufacturing and geometrical structuring. In this work we have studied additive manufacturing of transparent fused silica glass using the laser cladding process. Here a CO2-laser is used to locally melt the glass, while injecting a stream of glass powder into the hot-zone. A challenge specifically addressed in this work is the shadowing effect, i.e., when the injected powder interacts with the laser beam resulting in non-stable heating dynamics, and partial sintering of powder prior to reaching the substrate surface. To reduce these effects, we have studied the use of sub-micron sized glass powders in order to minimize the laser beam interactions, both absorption and scattering. Using fumed silica powder injected via a single, off-axis nozzle, combined with additional powder cone shaping gas, transparent silica glass has been fabricated with an achieved deposition efficiency of up to 30 %. Typical, single deposition tracks have a width of approximately 850 μm with single layer heights of up to 150 μm.
Maniewski, Pawel
fb31e508-188a-4034-a236-dd0a473874d0
Laurell, Fredrik
0e2c1feb-6779-4d58-a9a2-7d41a1457f14
Fokine, Michael
fb6ef706-b6fc-4aab-a295-b41f6561c7c8
Maniewski, Pawel
fb31e508-188a-4034-a236-dd0a473874d0
Laurell, Fredrik
0e2c1feb-6779-4d58-a9a2-7d41a1457f14
Fokine, Michael
fb6ef706-b6fc-4aab-a295-b41f6561c7c8

Maniewski, Pawel, Laurell, Fredrik and Fokine, Michael (2021) Reduction of shadowing effect during laser cladding of fused silica glass using sub-micron powders. SPIE LASE, 2021, Online Only: Photonics West, Online only, San Francisco, United States. 06 - 11 Mar 2021. (doi:10.1117/12.2578163).

Record type: Conference or Workshop Item (Paper)

Abstract


Fused silica glass is a commonly used high-performance material in scientific and industrial applications, due to the exceptional optical, mechanical and thermal properties. However, its production can be challenging and expensive due to the high processing temperatures required, in both manufacturing and geometrical structuring. In this work we have studied additive manufacturing of transparent fused silica glass using the laser cladding process. Here a CO2-laser is used to locally melt the glass, while injecting a stream of glass powder into the hot-zone. A challenge specifically addressed in this work is the shadowing effect, i.e., when the injected powder interacts with the laser beam resulting in non-stable heating dynamics, and partial sintering of powder prior to reaching the substrate surface. To reduce these effects, we have studied the use of sub-micron sized glass powders in order to minimize the laser beam interactions, both absorption and scattering. Using fumed silica powder injected via a single, off-axis nozzle, combined with additional powder cone shaping gas, transparent silica glass has been fabricated with an achieved deposition efficiency of up to 30 %. Typical, single deposition tracks have a width of approximately 850 μm with single layer heights of up to 150 μm.

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More information

Published date: 5 March 2021
Venue - Dates: SPIE LASE, 2021, Online Only: Photonics West, Online only, San Francisco, United States, 2021-03-06 - 2021-03-11

Identifiers

Local EPrints ID: 509562
URI: http://eprints.soton.ac.uk/id/eprint/509562
DOI: doi:10.1117/12.2578163
PURE UUID: 5b593aef-c8de-45cb-bccb-ca45ba386509
ORCID for Pawel Maniewski: ORCID iD orcid.org/0000-0003-0137-260X

Catalogue record

Date deposited: 25 Feb 2026 17:50
Last modified: 26 Feb 2026 03:14

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Contributors

Author: Pawel Maniewski ORCID iD
Author: Fredrik Laurell
Author: Michael Fokine

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