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Properties and Analysis of Thermally Aged Poly(ethylene oxide)

Properties and Analysis of Thermally Aged Poly(ethylene oxide)
Properties and Analysis of Thermally Aged Poly(ethylene oxide)
Recent studies have been performed into the use of polyethylene oxide (PEO) as a model system for observing the fundamental effects of adding micro and nano sized fillers to create polymeric composite systems. Many factors contribute to the successful creation of such a composite system, including dispersion of the filler and treatment of the material during creation. For example, while producing thin films of the materials for testing, high temperatures were used for short periods of time in open air to press the samples into small discs. It is well known that prolonged high temperature exposure can alter the chemistry and structure of polymeric materials and that small variations in the original chemistry, such as longer molecular weights or introduction of fillers, can reduce or possibly accelerate this 'ageing' effect. From these previous investigations many property changes were observed during addition of filler or variation of molecular weight, therefore to accurately attribute these changes to a cause the thermal ageing of the material should be observed. This investigation looks at the same 3 molecular weight PEO systems as those used in the previous investigations and analyses them for their vulnerability to thermal ageing. One thermally aged sample is then taken and tested alongside an unaged sample to observe the effects that the process has on the properties. This includes rheology in solution, differential scanning calorimetry (DSC), AC electrical breakdown, dielectric spectroscopy and Fourier transform infra-red (FTIR). By observing the property changes of aged samples it is possible to better understand the thermal ageing process occurring and possibly a way to reduce the effect, along with considering the effect with regard to the behaviour of the previously tested composite samples.
64
Reading, M
00efdd81-2dd9-4ac6-a7cd-f54b912aad46
Vaughan, A S
6d813b66-17f9-4864-9763-25a6d659d8a3
Reading, M
00efdd81-2dd9-4ac6-a7cd-f54b912aad46
Vaughan, A S
6d813b66-17f9-4864-9763-25a6d659d8a3

Reading, M and Vaughan, A S (2011) Properties and Analysis of Thermally Aged Poly(ethylene oxide). UHVnet 2011, Winchester, United Kingdom. 18 - 19 Jan 2011. p. 64 .

Record type: Conference or Workshop Item (Poster)

Abstract

Recent studies have been performed into the use of polyethylene oxide (PEO) as a model system for observing the fundamental effects of adding micro and nano sized fillers to create polymeric composite systems. Many factors contribute to the successful creation of such a composite system, including dispersion of the filler and treatment of the material during creation. For example, while producing thin films of the materials for testing, high temperatures were used for short periods of time in open air to press the samples into small discs. It is well known that prolonged high temperature exposure can alter the chemistry and structure of polymeric materials and that small variations in the original chemistry, such as longer molecular weights or introduction of fillers, can reduce or possibly accelerate this 'ageing' effect. From these previous investigations many property changes were observed during addition of filler or variation of molecular weight, therefore to accurately attribute these changes to a cause the thermal ageing of the material should be observed. This investigation looks at the same 3 molecular weight PEO systems as those used in the previous investigations and analyses them for their vulnerability to thermal ageing. One thermally aged sample is then taken and tested alongside an unaged sample to observe the effects that the process has on the properties. This includes rheology in solution, differential scanning calorimetry (DSC), AC electrical breakdown, dielectric spectroscopy and Fourier transform infra-red (FTIR). By observing the property changes of aged samples it is possible to better understand the thermal ageing process occurring and possibly a way to reduce the effect, along with considering the effect with regard to the behaviour of the previously tested composite samples.

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More information

Published date: 18 January 2011
Additional Information: Event Dates: 18-19 January 2011
Venue - Dates: UHVnet 2011, Winchester, United Kingdom, 2011-01-18 - 2011-01-19
Organisations: Electronics & Computer Science, EEE
Learn more about Electronics & Computer Science research

Identifiers

Local EPrints ID: 271884
URI: http://eprints.soton.ac.uk/id/eprint/271884
PURE UUID: ec7ece33-028e-4402-9fac-e1a4006fbc17
ORCID for A S Vaughan: ORCID iD orcid.org/0000-0002-0535-513X

Catalogue record

Date deposited: 07 Jan 2011 16:56
Last modified: 15 Mar 2024 03:05

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Contributors

Author: M Reading
Author: A S Vaughan ORCID iD

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