Finite element analysis of blister formation in laser-induced forward transfer

Blister-actuated laser-induced forward transfer (BA-LIFT) is a direct-write technique, which enables high-resolution printing of sensitive inks for electronic or biological applications. During BA-LIFT, a polymer laser-absorbing layer deforms into an enclosed blister and ejects ink from an adjacent...

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Published inJournal of materials research Vol. 26; no. 18; pp. 2438 - 2449
Main Authors Kattamis, Nicholas T., Brown, Matthew S., Arnold, Craig B.
Format Journal Article
LanguageEnglish
Published New York, USA Cambridge University Press 28.09.2011
Springer International Publishing
Springer Nature B.V
Subjects
Ablation
Applied and Technical Physics
Biomaterials
Blistering
Boundary conditions
Crack propagation
Experiments
Finite element analysis
Finite element method
Glass substrates
Inorganic Chemistry
Laser ablation
Lasers
Materials Engineering
Materials research
Materials Science
Mathematical analysis
Nanotechnology
Polymer films
Polymers
Simulation
Stress-strain relationships
Polymer
Stress/strain relationship
Laser ablation
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Abstract Blister-actuated laser-induced forward transfer (BA-LIFT) is a direct-write technique, which enables high-resolution printing of sensitive inks for electronic or biological applications. During BA-LIFT, a polymer laser-absorbing layer deforms into an enclosed blister and ejects ink from an adjacent donor film. In this work, we develop a finite element model to replicate and predict blister expansion dynamics during BA-LIFT. Model inputs consist of standard mechanical properties, strain-rate-dependent material parameters, and a parameter encapsulating the thermal and optical properties of the film. We present methods to determine these material parameters from experimental measurements. The simulated expansion dynamics are shown to be in good agreement with experimental measurements using two different polymer layer thicknesses. Finally, the ability to model high-fluence blister rupture is demonstrated through a strain-based failure approach.
AbstractList Blister-actuated laser-induced forward transfer (BA-LIFT) is a direct-write technique, which enables high-resolution printing of sensitive inks for electronic or biological applications. During BA-LIFT, a polymer laser-absorbing layer deforms into an enclosed blister and ejects ink from an adjacent donor film. In this work, we develop a finite element model to replicate and predict blister expansion dynamics during BA-LIFT. Model inputs consist of standard mechanical properties, strain-rate-dependent material parameters, and a parameter encapsulating the thermal and optical properties of the film. We present methods to determine these material parameters from experimental measurements. The simulated expansion dynamics are shown to be in good agreement with experimental measurements using two different polymer layer thicknesses. Finally, the ability to model high-fluence blister rupture is demonstrated through a strain-based failure approach.
Abstract Blister-actuated laser-induced forward transfer (BA-LIFT) is a direct-write technique, which enables high-resolution printing of sensitive inks for electronic or biological applications. During BA-LIFT, a polymer laser-absorbing layer deforms into an enclosed blister and ejects ink from an adjacent donor film. In this work, we develop a finite element model to replicate and predict blister expansion dynamics during BA-LIFT. Model inputs consist of standard mechanical properties, strain-rate-dependent material parameters, and a parameter encapsulating the thermal and optical properties of the film. We present methods to determine these material parameters from experimental measurements. The simulated expansion dynamics are shown to be in good agreement with experimental measurements using two different polymer layer thicknesses. Finally, the ability to model high-fluence blister rupture is demonstrated through a strain-based failure approach.
Abstract [PUBLICATION ABSTRACT] Blister-actuated laser-induced forward transfer (BA-LIFT) is a direct-write technique, which enables high-resolution printing of sensitive inks for electronic or biological applications. During BA-LIFT, a polymer laser-absorbing layer deforms into an enclosed blister and ejects ink from an adjacent donor film. In this work, we develop a finite element model to replicate and predict blister expansion dynamics during BA-LIFT. Model inputs consist of standard mechanical properties, strain-rate-dependent material parameters, and a parameter encapsulating the thermal and optical properties of the film. We present methods to determine these material parameters from experimental measurements. The simulated expansion dynamics are shown to be in good agreement with experimental measurements using two different polymer layer thicknesses. Finally, the ability to model high-fluence blister rupture is demonstrated through a strain-based failure approach. [PUBLICATION ABSTRACT]
Author Arnold, Craig B.
Kattamis, Nicholas T.
Brown, Matthew S.
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Laser ablation
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SSID ssj0015074
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Snippet Blister-actuated laser-induced forward transfer (BA-LIFT) is a direct-write technique, which enables high-resolution printing of sensitive inks for electronic...
Abstract Blister-actuated laser-induced forward transfer (BA-LIFT) is a direct-write technique, which enables high-resolution printing of sensitive inks for...
Abstract [PUBLICATION ABSTRACT] Blister-actuated laser-induced forward transfer (BA-LIFT) is a direct-write technique, which enables high-resolution printing...
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SubjectTerms Ablation
Applied and Technical Physics
Biomaterials
Blistering
Boundary conditions
Crack propagation
Experiments
Finite element analysis
Finite element method
Glass substrates
Inorganic Chemistry
Laser ablation
Lasers
Materials Engineering
Materials research
Materials Science
Mathematical analysis
Nanotechnology
Polymer films
Polymers
Simulation
Stress-strain relationships
Title Finite element analysis of blister formation in laser-induced forward transfer
URI https://www.cambridge.org/core/product/identifier/S0884291411002159/type/journal_article
https://link.springer.com/article/10.1557/jmr.2011.215
https://www.proquest.com/docview/904040956
https://search.proquest.com/docview/1541423575
Volume 26
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