Development of a Multifunctional Wet Laid Nonwoven from Marine Waste Posidonia oceanica Technical Fiber and CMC Binder

Saoussen Zannen; Mohamed Taher Halimi; Mohamed Ben Hassen; Emad Hashim Abualsauod; Asem Majed Othman

doi:10.3390/polym14050865

Development of a Multifunctional Wet Laid Nonwoven from Marine Waste Posidonia oceanica Technical Fiber and CMC Binder

Saoussen Zannen
, Mohamed Taher Halimi
, Mohamed Ben Hassen^*
, Emad Hashim Abualsauod^*
, Asem Majed Othman

^*Corresponding author for this work

Administrative Sciences Department

University of Monastir
Taibah University
University of Jeddah

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

17 Scopus citations

Abstract

A Posidonia oceanica waste marine plant was used to produce a wet-laid nonwoven web for multifunction applications. To study the effect of some parameters related to the web characteristics (sheet weight, binder ratio, and pulp ratio) on the mechanical and physical properties of the web, we used a Box–Behnken design plan with three levels. The diagram of the superposed contours graphic method was used to find the optimum parameters of the process for the application of the Posidonia nonwoven fiber on an insulation field. With the measurement of the thermal conductivity properties using the box method, the results demonstrated that the nonwoven fiber from Posidonia oceanica marine waste had good insulation properties in comparison with other classical natural fibers (hemp, flax) used in the field of insulation with the big advantage of being a natural product.

Original language	English
Article number	865
Journal	Polymers
Volume	14
Issue number	5
DOIs	https://doi.org/10.3390/polym14050865
State	Published - 1 Mar 2022

Keywords

Box–Behnken design
Insulation
Posidonia oceanica fiber
Thermal conductivity
Wet-laid nonwoven

Access to Document

10.3390/polym14050865

Cite this

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title = "Development of a Multifunctional Wet Laid Nonwoven from Marine Waste Posidonia oceanica Technical Fiber and CMC Binder",

abstract = "A Posidonia oceanica waste marine plant was used to produce a wet-laid nonwoven web for multifunction applications. To study the effect of some parameters related to the web characteristics (sheet weight, binder ratio, and pulp ratio) on the mechanical and physical properties of the web, we used a Box–Behnken design plan with three levels. The diagram of the superposed contours graphic method was used to find the optimum parameters of the process for the application of the Posidonia nonwoven fiber on an insulation field. With the measurement of the thermal conductivity properties using the box method, the results demonstrated that the nonwoven fiber from Posidonia oceanica marine waste had good insulation properties in comparison with other classical natural fibers (hemp, flax) used in the field of insulation with the big advantage of being a natural product.",

keywords = "Box–Behnken design, Insulation, Posidonia oceanica fiber, Thermal conductivity, Wet-laid nonwoven",

author = "Saoussen Zannen and Halimi, \{Mohamed Taher\} and Hassen, \{Mohamed Ben\} and Abualsauod, \{Emad Hashim\} and Othman, \{Asem Majed\}",

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AU - Zannen, Saoussen

AU - Halimi, Mohamed Taher

AU - Hassen, Mohamed Ben

AU - Abualsauod, Emad Hashim

AU - Othman, Asem Majed

PY - 2022/3/1

Y1 - 2022/3/1

N2 - A Posidonia oceanica waste marine plant was used to produce a wet-laid nonwoven web for multifunction applications. To study the effect of some parameters related to the web characteristics (sheet weight, binder ratio, and pulp ratio) on the mechanical and physical properties of the web, we used a Box–Behnken design plan with three levels. The diagram of the superposed contours graphic method was used to find the optimum parameters of the process for the application of the Posidonia nonwoven fiber on an insulation field. With the measurement of the thermal conductivity properties using the box method, the results demonstrated that the nonwoven fiber from Posidonia oceanica marine waste had good insulation properties in comparison with other classical natural fibers (hemp, flax) used in the field of insulation with the big advantage of being a natural product.

AB - A Posidonia oceanica waste marine plant was used to produce a wet-laid nonwoven web for multifunction applications. To study the effect of some parameters related to the web characteristics (sheet weight, binder ratio, and pulp ratio) on the mechanical and physical properties of the web, we used a Box–Behnken design plan with three levels. The diagram of the superposed contours graphic method was used to find the optimum parameters of the process for the application of the Posidonia nonwoven fiber on an insulation field. With the measurement of the thermal conductivity properties using the box method, the results demonstrated that the nonwoven fiber from Posidonia oceanica marine waste had good insulation properties in comparison with other classical natural fibers (hemp, flax) used in the field of insulation with the big advantage of being a natural product.

KW - Box–Behnken design

KW - Insulation

KW - Posidonia oceanica fiber

KW - Thermal conductivity

KW - Wet-laid nonwoven

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Development of a Multifunctional Wet Laid Nonwoven from Marine Waste Posidonia oceanica Technical Fiber and CMC Binder

Abstract

Keywords

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