Detail publikace

Determination of surface wettability of polymeric hollow fibres

BROŽOVÁ, T. RAUDENSKÝ, M.

Anglický název

Determination of surface wettability of polymeric hollow fibres

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

en

Originální abstrakt

Surface wettability significantly affects the condensation and therefore the heat transfer when condensation occurs. The materials are classified as either hydrophobic or hydrophilic. Materials with a lower contact angle are more suitable for heat transfer applications associated with condensation. The dynamic contact angle is one way to define surface wettability. In this contribution, the Wilhelmy method was used for measuring the force of the interaction of a fibre at the liquid–gas interface. The method is based on immersing a sample in a liquid and then removing it. This study compares the influence of the type of polymeric material and surface finishes of hollow fibres on the dynamic contact angle. Polypropylene fibres and polypropylene fibres with a Trapylen®, (TRAMACO GmbH, Germany) surface finish achieve a larger dynamic contact angle (the advancing dynamic contact angle measured in water is around 100°). Therefore, they seem to be a better alternative than polycarbonate, polyether ether ketone and polyamide (the advancing dynamic contact angle in water is around 80°).

Anglický abstrakt

Surface wettability significantly affects the condensation and therefore the heat transfer when condensation occurs. The materials are classified as either hydrophobic or hydrophilic. Materials with a lower contact angle are more suitable for heat transfer applications associated with condensation. The dynamic contact angle is one way to define surface wettability. In this contribution, the Wilhelmy method was used for measuring the force of the interaction of a fibre at the liquid–gas interface. The method is based on immersing a sample in a liquid and then removing it. This study compares the influence of the type of polymeric material and surface finishes of hollow fibres on the dynamic contact angle. Polypropylene fibres and polypropylene fibres with a Trapylen®, (TRAMACO GmbH, Germany) surface finish achieve a larger dynamic contact angle (the advancing dynamic contact angle measured in water is around 100°). Therefore, they seem to be a better alternative than polycarbonate, polyether ether ketone and polyamide (the advancing dynamic contact angle in water is around 80°).

Klíčová slova anglicky

Wettability, polymeric hollow fibres, Wilhelmy method, dynamic contact angle, heat transfer

Vydáno

01.12.2018

Nakladatel

SAGE Publications Ltd

ISSN

0095-2443

Ročník

50

Číslo

8

Strany od–do

737–746

Počet stran

10

BIBTEX


@article{BUT147245,
  author="Tereza {Kůdelová} and Miroslav {Raudenský},
  title="Determination of surface wettability of polymeric hollow fibres",
  year="2018",
  volume="50",
  number="8",
  month="December",
  pages="737--746",
  publisher="SAGE Publications Ltd",
  issn="0095-2443"
}