Ultrasonic fortification of interfiber autohesive contacts in meltblown nonwoven materials

•Diversified autohesive traits in melt-blown nonwovens using ultrasonic bonding.•Mean work of autohesion for a single polypropylene bond has been computed.•Peel-off force analysis conducted by varying static force, power, and welding speed.•X-ray microCT analysis on select bonded nonwoven samples di...

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Bibliographic Details
Published in:Journal of advanced joining processes 2024-06, Vol.9, p.100217, Article 100217
Main Authors: Rawal, Amit, Singh, Danvendra, Maurya, Alok, Shukla, Siddharth, Hussen, Muktar Seid, Kyosev, Yordan, Szenti, Imre, Kukovecz, Akos, Kadi, Nawar, Kumar, Vijay
Format: Article
Language:English
Subjects:
Autohesion
Nonwoven
Peel-off
Ultrasonic bonding
Work of autohesion
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Summary:•Diversified autohesive traits in melt-blown nonwovens using ultrasonic bonding.•Mean work of autohesion for a single polypropylene bond has been computed.•Peel-off force analysis conducted by varying static force, power, and welding speed.•X-ray microCT analysis on select bonded nonwoven samples discerns bulk features.•Mean work of autohesion for a polypropylene bond ranges from 1.88 to 9.93 J/m². Autohesion is a unique class of adhesion that enables the bonding of two identical surfaces by establishing intimate contact at interfaces. Creating intimacy between two identical surfaces poses a challenging task, often constrained by the presence of surface roughness and chemical heterogeneity. To surmount this challenge, we document a variety of autohesive traits in polypropylene-based meltblown nonwovens, accomplished through a facile, scalable, energy-efficient, and cost-effective ultrasonic bonding process. The mean work of autohesion for a single polypropylene bond, serving as a figure of merit, has been computed by extending the classical Johnson−Kendall−Roberts (JKR) theory by factoring in peel strength along with key fiber and structural parameters of nonwoven materials. Achieving a high figure of merit in ultrasonically bonded nonwovens hinges on the synergistic interplay of key process parameters, including static force, power, and welding speed, with the fiber and structural properties acting in concert. In this regard, peel-off force analysis has also been conducted on a series of twenty-seven ultrasonically bonded meltblown nonwovens prepared using a 33 full factorial design by systematically varying process parameters (static force, power, and welding speed) across three levels and extension rate. X-ray microcomputed tomography (microCT) analysis has been performed on select ultrasonically bonded nonwoven samples to discern their bulk characteristics. A broad spectrum of mean work of autohesion for a single polypropylene bond, ranging from 1.88 to 9.93 J/m², has been ascertained by modulating key process parameters.
ISSN:2666-3309
2666-3309
DOI:10.1016/j.jajp.2024.100217