Dynamic behavior of axially moving web in multi-span roll-to-roll microcontact printing system

Sajid Ali; Muhammad A. Hawwa; David E. Hardt

doi:10.1177/09596518221123365

Dynamic behavior of axially moving web in multi-span roll-to-roll microcontact printing system

Sajid Ali^*, Muhammad A. Hawwa, David E. Hardt

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

This article presents theoretical dynamic analysis of a vibrating axially moving web of a multi-span / multi-roll microcontact printing system and experimental measurements of the system’s frequency response. A unique lab-scale microcontact printing machine with high-speed web handling capabilities is used. The axially moving web is modeled as a string and as a membrane. Then, numerical results of both models are compared with experimentally obtained response. The experiment is run for both case of constant axial speed and varying axial speed with time. Although both models are in good agreement with the experimental results, the values of frequencies obtained from the string model are found to be in closer agreement with those obtained from the experimental findings. It is found that increasing the web tension and decreasing the axial web speed increase the system’s frequency.

Original language	English
Pages (from-to)	348-358
Number of pages	11
Journal	Proceedings of the Institution of Mechanical Engineers. Part I: Journal of Systems and Control Engineering
Volume	237
Issue number	2
DOIs	https://doi.org/10.1177/09596518221123365
State	Published - Feb 2023

Bibliographical note

Publisher Copyright:
© IMechE 2022.

Keywords

Coupled nonlinear vibration
axially moving web
experimental verification
finite difference method
microcontact printing (μCP)

ASJC Scopus subject areas

Control and Systems Engineering
Mechanical Engineering

Access to Document

10.1177/09596518221123365

Cite this

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title = "Dynamic behavior of axially moving web in multi-span roll-to-roll microcontact printing system",

abstract = "This article presents theoretical dynamic analysis of a vibrating axially moving web of a multi-span / multi-roll microcontact printing system and experimental measurements of the system{\textquoteright}s frequency response. A unique lab-scale microcontact printing machine with high-speed web handling capabilities is used. The axially moving web is modeled as a string and as a membrane. Then, numerical results of both models are compared with experimentally obtained response. The experiment is run for both case of constant axial speed and varying axial speed with time. Although both models are in good agreement with the experimental results, the values of frequencies obtained from the string model are found to be in closer agreement with those obtained from the experimental findings. It is found that increasing the web tension and decreasing the axial web speed increase the system{\textquoteright}s frequency.",

keywords = "Coupled nonlinear vibration, axially moving web, experimental verification, finite difference method, microcontact printing (μCP)",

author = "Sajid Ali and Hawwa, \{Muhammad A.\} and Hardt, \{David E.\}",

note = "Publisher Copyright: {\textcopyright} IMechE 2022.",

year = "2023",

month = feb,

doi = "10.1177/09596518221123365",

language = "English",

volume = "237",

pages = "348--358",

journal = "Proceedings of the Institution of Mechanical Engineers. Part I: Journal of Systems and Control Engineering",

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T1 - Dynamic behavior of axially moving web in multi-span roll-to-roll microcontact printing system

AU - Ali, Sajid

AU - Hawwa, Muhammad A.

AU - Hardt, David E.

N1 - Publisher Copyright: © IMechE 2022.

PY - 2023/2

Y1 - 2023/2

N2 - This article presents theoretical dynamic analysis of a vibrating axially moving web of a multi-span / multi-roll microcontact printing system and experimental measurements of the system’s frequency response. A unique lab-scale microcontact printing machine with high-speed web handling capabilities is used. The axially moving web is modeled as a string and as a membrane. Then, numerical results of both models are compared with experimentally obtained response. The experiment is run for both case of constant axial speed and varying axial speed with time. Although both models are in good agreement with the experimental results, the values of frequencies obtained from the string model are found to be in closer agreement with those obtained from the experimental findings. It is found that increasing the web tension and decreasing the axial web speed increase the system’s frequency.

AB - This article presents theoretical dynamic analysis of a vibrating axially moving web of a multi-span / multi-roll microcontact printing system and experimental measurements of the system’s frequency response. A unique lab-scale microcontact printing machine with high-speed web handling capabilities is used. The axially moving web is modeled as a string and as a membrane. Then, numerical results of both models are compared with experimentally obtained response. The experiment is run for both case of constant axial speed and varying axial speed with time. Although both models are in good agreement with the experimental results, the values of frequencies obtained from the string model are found to be in closer agreement with those obtained from the experimental findings. It is found that increasing the web tension and decreasing the axial web speed increase the system’s frequency.

KW - Coupled nonlinear vibration

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KW - experimental verification

KW - finite difference method

KW - microcontact printing (μCP)

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Dynamic behavior of axially moving web in multi-span roll-to-roll microcontact printing system

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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