Publication detail

Fatigue Testing of Polymeric Hollow Fibre Heat Transfer Surfaces by Pulsating Pressure Loads

BROŽOVÁ, T. LUKS, T. ASTROUSKI, I. RAUDENSKÝ, M.

Original Title

Fatigue Testing of Polymeric Hollow Fibre Heat Transfer Surfaces by Pulsating Pressure Loads

English Title

Fatigue Testing of Polymeric Hollow Fibre Heat Transfer Surfaces by Pulsating Pressure Loads

Type

conference paper

Language

en

Original Abstract

This article deals with the fatigue tests of polymeric hollow fibre heat transfer surfaces. Hollow fibres have an outer diameter around 0.5-0.8 mm and a thickness of the wall is 10 % of the outer diameter. These heat transfer surfaces made from plastics have some limitations but also a lot of benefits. One of the limitations is durability of plastic under fatigue loading. The heat transfer surfaces were subjected to pulsating pressure loads under different conditions (level of pressure, ambient temperature, number of cycles). Firstly, just the pulsating load was applied and the behaviour of hollow fibres was observed paying special attention to the presence of a leaking, rupture, etc. Then some other conditions of operations were added. The heat transfer surfaces were immersed in a hot bath and loaded by pulsating pressure and high temperature simultaneously. Testing under the different temperature is important because the temperature significantly affects the material properties. The presence of the leaking, rupture and other possible damage was monitored as for previous tests.

English abstract

This article deals with the fatigue tests of polymeric hollow fibre heat transfer surfaces. Hollow fibres have an outer diameter around 0.5-0.8 mm and a thickness of the wall is 10 % of the outer diameter. These heat transfer surfaces made from plastics have some limitations but also a lot of benefits. One of the limitations is durability of plastic under fatigue loading. The heat transfer surfaces were subjected to pulsating pressure loads under different conditions (level of pressure, ambient temperature, number of cycles). Firstly, just the pulsating load was applied and the behaviour of hollow fibres was observed paying special attention to the presence of a leaking, rupture, etc. Then some other conditions of operations were added. The heat transfer surfaces were immersed in a hot bath and loaded by pulsating pressure and high temperature simultaneously. Testing under the different temperature is important because the temperature significantly affects the material properties. The presence of the leaking, rupture and other possible damage was monitored as for previous tests.

Keywords

fatigue test, pulsating pressure load, hollow fibres, heat exchanger, heat transfer surfaces

RIV year

2015

Released

11.05.2015

Publisher

Institute of Theoretical and Applied Mechanics

Location

Svratka

ISBN

978-80-86246-42-0

Book

ENGINEERING MECHANICS 2015 21st International Conference Engineering Mechanics 2015

Edition

1

Edition number

1

Pages from

30

Pages to

31

Pages count

2

URL

BibTex


@inproceedings{BUT114617,
  author="Tereza {Kůdelová} and Tomáš {Luks} and Ilya {Astrouski} and Miroslav {Raudenský}",
  title="Fatigue Testing of Polymeric Hollow Fibre Heat Transfer Surfaces
by Pulsating Pressure Loads",
  annote="This article deals with the fatigue tests of polymeric hollow fibre heat transfer surfaces. Hollow fibres have an outer diameter around 0.5-0.8 mm and a thickness of the wall is 10 % of the outer diameter. These heat transfer surfaces made from plastics have some limitations but also a lot of benefits. One of the limitations is durability of plastic under fatigue loading. The heat transfer surfaces were subjected to pulsating pressure loads under different conditions (level of pressure, ambient temperature, number of cycles). Firstly, just the pulsating load was applied and the behaviour of hollow fibres was observed paying special attention to the presence of a leaking, rupture, etc.
Then some other conditions of operations were added. The heat transfer surfaces were immersed in a hot bath and loaded by pulsating pressure and high temperature simultaneously. Testing under the different temperature is important because the temperature significantly affects the material properties.
The presence of the leaking, rupture and other possible damage was monitored as for previous tests.",
  address="Institute of Theoretical and Applied Mechanics",
  booktitle="ENGINEERING MECHANICS 2015
21st International Conference Engineering Mechanics 2015",
  chapter="114617",
  edition="1",
  howpublished="print",
  institution="Institute of Theoretical and Applied Mechanics",
  year="2015",
  month="may",
  pages="30--31",
  publisher="Institute of Theoretical and Applied Mechanics",
  type="conference paper"
}