Titre : Moisture-Responsive Cellulose For 4D Printing 

Auteurs : Bassam AL NAHARI
, Khalid ZARBANE
, Zitouni BEIDOURI,  

Revue : Uncertainties and Reliability of Multiphysical Systems 

Numéro : Issue 2 

Volume : 8 

Date : 2024/10/24 

DOI : 10.21494/ISTE.OP.2024.1227 

ISSN : 2514-569X 

Résumé : Particularly focusing on 4D printing, a technology enabling objects to transform over time. We explore smart materials, emphasizing moisture-responsive variants crucial for 4D printing. Notably, cellulose emerges as key, offering renewable and sustainable bio-based filaments. We detail the meticulous preparation of cellulose from sugarcane bagasse, obtaining high-purity fibers essential for 4D printing. These filaments exhibit versatile stiffness and moisture responsiveness, crucial for hygromorphic structures. Our proposed method integrates a codesign approach tailored for 4D printing, utilizing fused filament fabrication and cellulose-filled filaments. Through this investigation, we uncover cellulose’s potential in sensor technology and additive manufacturing, marking significant progress in responsive materials and 4D printing. 

Éditeur : ISTE OpenScience