Your search keyword '"Masghouni, Emna"' showing total 2 results

1. Design, Processing, and Challenges of Multicomponent Polymer Composites for Improved Electromagnetic Interference Shielding Properties: A Review.

Author

Li, Jixiang, Masghouni, Emna, Granger, Mathis, Sudre, Guillaume, Alcouffe, Pierre, Muller, Didier, Nguyen, Van Son, Bayard, Bernard, Serghei, Anatoli, Sauviac, Bruno, Maazouz, Abderrahim, and Lamnawar, Khalid

Subjects

*CONDUCTING polymer composites, *ELECTROMAGNETIC interference, *ELECTROMAGNETIC shielding, *POLYMERS, *RHEOLOGY, *POROUS polymers

Abstract

The colossal development of modern electronic devices has inevitably led to an increase in electromagnetic interference (EMI), which has gradually become the fourth most prevalent type of pollution in the world. It is therefore necessary to seek more effective EMI‐shielding materials to overcome the shortcomings of conventional metal‐based materials, which include high density, a lack of mechanical flexibility, low corrosion resistance and costly processing. Conductive polymer composites (CPCs) have attracted more and more attention due to their superiority in many aspects. However, their performances should be further enhanced for future applications. One polymer with only one type of filler often cannot meet this kind of requirement. In this paper, filled polymer materials for EMI shielding are reviewed in terms of their processing, rheological properties, conductivity, and shielding effectiveness. Moreover, the combination of different ingredients and fillers when fabricating multicomponent composites for EMI shielding is also highlighted. The coordination of various components in composites with different structures, including solid, segregated, layered/sandwiched, and foamed/porous structures, is then discussed. [ABSTRACT FROM AUTHOR]

Published

2024

2. Multi-Micro/Nanolayer Films Based on Polyolefins: New Approaches from Eco-Design to Recycling.

Author

Cabrera, Geraldine, Touil, Ibtissam, Masghouni, Emna, Maazouz, Abderrahim, Lamnawar, Khalid, and Bárány, Tamás

Subjects

POLYOLEFINS, RECYCLED products, POLYPROPYLENE, POLYETHYLENE, NEW product development, POLYSTYRENE

Abstract

This paper describes a future-oriented approach for the valorization of polyethylene-based multilayer films. The method involves going from eco-design to mechanical recycling of multilayer films via forced assembly coextrusion. The originality of this study consists in limiting the number of constituents, reducing/controlling the thickness of the layers and avoiding the use of tie layers. The ultimate goal is to improve the manufacturing of new products from recycled multilayer materials by simplifying their recyclability. Within this framework, new structures were developed with two polymer systems: polyethylene/polypropylene and polyethylene/polystyrene, with nominal micro- and nanometric thicknesses. Hitherto, the effect of the multi-micro/nanolayer architecture as well as initial morphological and mechanical properties was evaluated. Several recycling processes were investigated, including steps such as: (i) grinding; (ii) monolayer cast film extrusion; or (iii) injection molding with or without an intermediate blending step by twin-screw extrusion. Subsequently, the induced morphological and mechanical properties were investigated depending on the recycling systems and the relationships between the chosen recycling processes or strategies, and structure and property control of the recycled systems was established accordingly. Based on the results obtained, a proof of concept was demonstrated with the eco-design of multi-micro/nanolayer films as a very promising solution for the industrial issues that arise with the valorization of recycled materials. [ABSTRACT FROM AUTHOR]

Published

2021