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Dynamic temperature measurements on a thermally activated self-healing ionomer

Bond, Ian P. / Trask, Richard S. / Varley, Russell J. / Haase, Thomas / Rohr, Ingmar / Thoma, Klaus

An ionomer, which is able to self-heal the damage after ballistic impact of a projectile, was studied using dynamic puncture tests. A temperature increase in this polymer is a fundamental part of the self-healing process. Therefore, the temperature during the puncture tests was measured using embedded thermocouples. These adiabatic temperature measurements allow for some first conclusions about the processes that are involved in the heating of the material during an impact process.

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Dynamic temperature measurements on a thermally activated self-healing ionomer

Bond, Ian P. / Trask, Richard S. / Varley, Russell J. / Haase, Thomas / Rohr, Ingmar / Thoma, Klaus

An ionomer, which is able to self-heal the damage after ballistic impact of a projectile, was studied using dynamic puncture tests. A temperature increase in this polymer is a fundamental part of the self-healing process. Therefore, the temperature during the puncture tests was measured using embedded thermocouples. These adiabatic temperature measurements allow for some first conclusions about the processes that are involved in the heating of the material during an impact process.

Dynamic temperature measurements on a thermally activated self-healing ionomer

Bond, Ian P. / Trask, Richard S. / Varley, Russell J. / Haase, Thomas / Rohr, Ingmar / Thoma, Klaus

An ionomer, which is able to self-heal the damage after ballistic impact of a projectile, was studied using dynamic puncture tests. A temperature increase in this polymer is a fundamental part of the self-healing process. Therefore, the temperature during the puncture tests was measured using embedded thermocouples. These adiabatic temperature measurements allow for some first conclusions about the processes that are involved in the heating of the material during an impact process.

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Title:

Dynamic temperature measurements on a thermally activated self-healing ionomer

Contributors:

Bond, Ian P. (author) / Trask, Richard S. (author) / Varley, Russell J. (author) / Haase, Thomas (author) / Rohr, Ingmar (author) / Thoma, Klaus (author)

Published in:

Journal of Intelligent Material Systems and Structures ; 25 ; 25-30

Publication date:

2014

Size:

6 Seiten, 12 Quellen

ISSN:

DOI:

https://doi.org/10.1177/1045389X12444487

Type of media:

Article (Journal)

Type of material:

Print

Language:

English

Keywords:

Ionomer , Thermoelement , Temperaturanstieg , Schmelzen , Temperaturmessung , Polymer , adiabatische Zustandsänderung

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