Drying Regimes on Regenerated Cellulose Films Characteristics and Properties

Ibrahim, Nur Ain; Salleh, Kushairi Mohd; Fudholi, Ahmad; Zakaria, Sarani

doi:10.3390/membranes12050445

Membranes

2022

DOI: 10.3390/membranes12050445

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Drying Regimes on Regenerated Cellulose Films Characteristics and Properties

Nur Ain Ibrahim

Kushairi Mohd Salleh

Ahmad Fudholi

et al.

Abstract: Abundant water content and its interaction with cellulose macromolecules through hydrogen bonding engenders a complex drying process, the circumstances of which have not yet been unveiled. For instance, excessive drying on regenerated cellulose membranes (RCM) causes cracking and severe shrinking, affecting the produced regenerated cellulose film (RCF). Thus, mathematical models in estimating the drying kinetics and required energy to dry RCM are necessary. This study evaluated two drying techniques of oven dr… Show more

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Cited by 6 publications

References 31 publications

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Development of cellulose films by means of the Ioncell® technology, as an alternative to commercial films

González Carmona,

Schlapp-Hackl,

Jääskeläinen

et al. 2023

Cellulose

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In recent years, the search for alternatives to petroleum derived products, such as plastic films, has become a priority due to the growing depletion of fossil reserves and the pollution of water resources by microplastics, microscopically small plastic particles which are harmful to ocean and aquatic life. Cellulose-based films, e.g., cellophane and cuprophane, have been on the market for almost a century. Despite being a more ecological option compared to plastic films, the manufacture of these cellulose films involves high production costs and the use of harmful chemicals. As an alternative, a sustainable and eco-friendly process based on the Lyocell-type Ioncell® technology is presented to produce cellulose films. Regenerated cellulose films are created by continuous extrusion via dry-jet wet spinning of an ionic liquid–cellulose solutions. The influence of the polymer concentration (8–13 wt%) and processing temperature (50–100 °C) on the properties of the films were studied by the determination of the thickness, mechanical properties, physical appearance, morphology, chemical composition, and hydrophobicity. The obtained films are thin (12–21 μm), transparent (transmittance = 91%) and of homogeneous structure. Moreover, they exhibit excellent mechanical properties: stress values up to 210 MPa and elongations up to 19% in machine (longitudinal) direction. These values clearly outperform commercial cellophane, which presents stress values of 125 MPa and elongations of 22%. The films presented herein hold great potential to become an eco-friendly and sustainable option to commercial films.

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Development of cellulose films by means of the Ioncell® technology, as an alternative to commercial films

González Carmona,

Schlapp-Hackl,

Jääskeläinen

et al. 2023

Cellulose

View full text Add to dashboard Cite

show abstract

Aligned regenerated cellulose films with enhanced mechanical and optical properties for light management

Zhu

Guan

et al. 2023

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Modelling and experimental analysis of rice drying in new fluidized bed assisted hybrid infrared-microwave dryer

Nanvakenari¹,

Movagharnejad²,

Latifi³

2022

Food Research International

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Drying Regimes on Regenerated Cellulose Films Characteristics and Properties

Cited by 6 publications

References 31 publications

Development of cellulose films by means of the Ioncell® technology, as an alternative to commercial films

Development of cellulose films by means of the Ioncell® technology, as an alternative to commercial films

Aligned regenerated cellulose films with enhanced mechanical and optical properties for light management

Modelling and experimental analysis of rice drying in new fluidized bed assisted hybrid infrared-microwave dryer

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