Manufacture of Contact Lenses

Kevin Moroney; Emma Greenbank; Ferran Brosa Planella; Sean Bohun; William Lee; Leah Keating; Marc Schwarzwalder; Ann Smith; Mark McGuinness; Michael Coughlan; Michael Vynnycky

doi:10.33774/miir-2024-h97vx

Manufacture of Contact Lenses

Kevin Moroney^*, Emma Greenbank, Ferran Brosa Planella, Sean Bohun, William Lee, Leah Keating, Marc Schwarzwalder, Ann Smith, Mark McGuinness, Michael Coughlan, Michael Vynnycky

^*Corresponding author for this work

Experimental Zoology

Research output: Book/Report › Report › Academic

Abstract

Johnson & Johnson (J & J) Vision Care manufacture billions of soft contact lenses each year at their site in Limerick. One aspect of contact lens production which is time and energy intensive is the curing process, where a liquid monomer solution is converted into a soft solid in a photopolymerisation reaction. This study develops models of the photopolymerisation process during contact lens manufacture, incorporating the important physicochemical mechanisms, to facilitate process understanding and optimisation. The developed models account for light propagation, heat transport and polymerisation kinetics. The relationship between curing time and lens thickness, monomer solution properties and oxygen inhibition is probed in a series of simulations, showing the potential of the models to explore optimal processing conditions for specific lens configurations. A separate model is developed to assess the relationship between the degree of cure of the lens and its distortion under gravity.

Original language	English
Publisher	Cambridge University Press
Number of pages	46
DOIs	https://doi.org/10.33774/miir-2024-h97vx
Publication status	Published - 6 Nov 2024

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Name	Mathematics in Industry Reports (MIIR)

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abstract = "Johnson & Johnson (J & J) Vision Care manufacture billions of soft contact lenses each year at their site in Limerick. One aspect of contact lens production which is time and energy intensive is the curing process, where a liquid monomer solution is converted into a soft solid in a photopolymerisation reaction. This study develops models of the photopolymerisation process during contact lens manufacture, incorporating the important physicochemical mechanisms, to facilitate process understanding and optimisation. The developed models account for light propagation, heat transport and polymerisation kinetics. The relationship between curing time and lens thickness, monomer solution properties and oxygen inhibition is probed in a series of simulations, showing the potential of the models to explore optimal processing conditions for specific lens configurations. A separate model is developed to assess the relationship between the degree of cure of the lens and its distortion under gravity.",

author = "Kevin Moroney and Emma Greenbank and {Brosa Planella}, Ferran and Sean Bohun and William Lee and Leah Keating and Marc Schwarzwalder and Ann Smith and Mark McGuinness and Michael Coughlan and Michael Vynnycky",

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AU - Moroney, Kevin

AU - Greenbank, Emma

AU - Brosa Planella, Ferran

AU - Bohun, Sean

AU - Lee, William

AU - Keating, Leah

AU - Schwarzwalder, Marc

AU - Smith, Ann

AU - McGuinness, Mark

AU - Coughlan, Michael

AU - Vynnycky, Michael

PY - 2024/11/6

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N2 - Johnson & Johnson (J & J) Vision Care manufacture billions of soft contact lenses each year at their site in Limerick. One aspect of contact lens production which is time and energy intensive is the curing process, where a liquid monomer solution is converted into a soft solid in a photopolymerisation reaction. This study develops models of the photopolymerisation process during contact lens manufacture, incorporating the important physicochemical mechanisms, to facilitate process understanding and optimisation. The developed models account for light propagation, heat transport and polymerisation kinetics. The relationship between curing time and lens thickness, monomer solution properties and oxygen inhibition is probed in a series of simulations, showing the potential of the models to explore optimal processing conditions for specific lens configurations. A separate model is developed to assess the relationship between the degree of cure of the lens and its distortion under gravity.

AB - Johnson & Johnson (J & J) Vision Care manufacture billions of soft contact lenses each year at their site in Limerick. One aspect of contact lens production which is time and energy intensive is the curing process, where a liquid monomer solution is converted into a soft solid in a photopolymerisation reaction. This study develops models of the photopolymerisation process during contact lens manufacture, incorporating the important physicochemical mechanisms, to facilitate process understanding and optimisation. The developed models account for light propagation, heat transport and polymerisation kinetics. The relationship between curing time and lens thickness, monomer solution properties and oxygen inhibition is probed in a series of simulations, showing the potential of the models to explore optimal processing conditions for specific lens configurations. A separate model is developed to assess the relationship between the degree of cure of the lens and its distortion under gravity.

U2 - 10.33774/miir-2024-h97vx

DO - 10.33774/miir-2024-h97vx

M3 - Report

T3 - Mathematics in Industry Reports (MIIR)

BT - Manufacture of Contact Lenses

PB - Cambridge University Press

ER -

Manufacture of Contact Lenses

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