Characterization of surface properties of thin film composite (TFC) membranes under various loading conditions

Fatima Ghassan Alabtah; Abedalkader Alkhouzaam; Marwan Khraisheh; Helmi Attia

doi:10.1016/j.cirp.2022.04.069

Characterization of surface properties of thin film composite (TFC) membranes under various loading conditions

Fatima Ghassan Alabtah
, Abedalkader Alkhouzaam
, Marwan Khraisheh^*
, Helmi Attia

^*Corresponding author for this work

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

14 Citations (Scopus)

Abstract

The performance of membranes relies on their surface characteristics which degrade due to complex loading during operation. Available studies examine surface properties under uniaxial loading, and limited, if none, are available under various loading conditions. We assess the surface integrity of thin film composite membranes under static and dynamic uniaxial and biaxial loading using contact angle, atomic force microscopy, and scanning electron microscopy measurements by examining surface hydrophilicity and morphology. We demonstrate the limitations of uniaxial tests in assessing the surface properties. Damage of the polyamide layer was observed at dynamic load levels much below the expected static rupture load. Crown Copyright (c) 2022 Published by Elsevier Ltd on behalf of CIRP. All rights reserved.

Original language	English
Pages (from-to)	501-504
Number of pages	4
Journal	CIRP Annals
Volume	71
Issue number	1
DOIs	https://doi.org/10.1016/j.cirp.2022.04.069
Publication status	Published - Jan 2022
Externally published	Yes

Keywords

Atomic force microscopy (AFM)
Surface integrity
Thin film composite (TFC) membranes

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10.1016/j.cirp.2022.04.069

Cite this

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abstract = "The performance of membranes relies on their surface characteristics which degrade due to complex loading during operation. Available studies examine surface properties under uniaxial loading, and limited, if none, are available under various loading conditions. We assess the surface integrity of thin film composite membranes under static and dynamic uniaxial and biaxial loading using contact angle, atomic force microscopy, and scanning electron microscopy measurements by examining surface hydrophilicity and morphology. We demonstrate the limitations of uniaxial tests in assessing the surface properties. Damage of the polyamide layer was observed at dynamic load levels much below the expected static rupture load. Crown Copyright (c) 2022 Published by Elsevier Ltd on behalf of CIRP. All rights reserved.",

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AU - Alabtah, Fatima Ghassan

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AU - Khraisheh, Marwan

AU - Attia, Helmi

PY - 2022/1

Y1 - 2022/1

N2 - The performance of membranes relies on their surface characteristics which degrade due to complex loading during operation. Available studies examine surface properties under uniaxial loading, and limited, if none, are available under various loading conditions. We assess the surface integrity of thin film composite membranes under static and dynamic uniaxial and biaxial loading using contact angle, atomic force microscopy, and scanning electron microscopy measurements by examining surface hydrophilicity and morphology. We demonstrate the limitations of uniaxial tests in assessing the surface properties. Damage of the polyamide layer was observed at dynamic load levels much below the expected static rupture load. Crown Copyright (c) 2022 Published by Elsevier Ltd on behalf of CIRP. All rights reserved.

AB - The performance of membranes relies on their surface characteristics which degrade due to complex loading during operation. Available studies examine surface properties under uniaxial loading, and limited, if none, are available under various loading conditions. We assess the surface integrity of thin film composite membranes under static and dynamic uniaxial and biaxial loading using contact angle, atomic force microscopy, and scanning electron microscopy measurements by examining surface hydrophilicity and morphology. We demonstrate the limitations of uniaxial tests in assessing the surface properties. Damage of the polyamide layer was observed at dynamic load levels much below the expected static rupture load. Crown Copyright (c) 2022 Published by Elsevier Ltd on behalf of CIRP. All rights reserved.

KW - Atomic force microscopy (AFM)

KW - Surface integrity

KW - Thin film composite (TFC) membranes

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VL - 71

SP - 501

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JO - CIRP Annals

JF - CIRP Annals

IS - 1

ER -

Characterization of surface properties of thin film composite (TFC) membranes under various loading conditions

Abstract

Keywords

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