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High throughput mechanical micro-scale characterization of composites and the utilization of the results in finite element analysis

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High throughput mechanical micro-scale characterization of composites and the utilization of the results in finite element analysis. / Laurikainen, Pekka; Pötz, Sandra; Jokinen, Jarno; Essen von, Mathias; Lindgren, Mari; Kallio, Pasi; Kanerva, Mikko; Oreski, Gernot; Sarlin, Essi.

Proceedings of the 18th European Conference on Composite Materials (ECCM): Athens, Greece, 24-28 June 2018. 2018.

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

Harvard

Laurikainen, P, Pötz, S, Jokinen, J, Essen von, M, Lindgren, M, Kallio, P, Kanerva, M, Oreski, G & Sarlin, E 2018, High throughput mechanical micro-scale characterization of composites and the utilization of the results in finite element analysis. in Proceedings of the 18th European Conference on Composite Materials (ECCM): Athens, Greece, 24-28 June 2018. EUROPEAN CONFERENCE ON COMPOSITE MATERIALS, 1/01/00.

APA

Laurikainen, P., Pötz, S., Jokinen, J., Essen von, M., Lindgren, M., Kallio, P., ... Sarlin, E. (2018). High throughput mechanical micro-scale characterization of composites and the utilization of the results in finite element analysis. In Proceedings of the 18th European Conference on Composite Materials (ECCM): Athens, Greece, 24-28 June 2018

Vancouver

Laurikainen P, Pötz S, Jokinen J, Essen von M, Lindgren M, Kallio P et al. High throughput mechanical micro-scale characterization of composites and the utilization of the results in finite element analysis. In Proceedings of the 18th European Conference on Composite Materials (ECCM): Athens, Greece, 24-28 June 2018. 2018

Author

Laurikainen, Pekka ; Pötz, Sandra ; Jokinen, Jarno ; Essen von, Mathias ; Lindgren, Mari ; Kallio, Pasi ; Kanerva, Mikko ; Oreski, Gernot ; Sarlin, Essi. / High throughput mechanical micro-scale characterization of composites and the utilization of the results in finite element analysis. Proceedings of the 18th European Conference on Composite Materials (ECCM): Athens, Greece, 24-28 June 2018. 2018.

Bibtex - Download

@inproceedings{ca18304eb4d846b39afb8b4d4fecdc49,
title = "High throughput mechanical micro-scale characterization of composites and the utilization of the results in finite element analysis",
abstract = "This study presents preliminary results from the micro-scale behaviour of aged glass fibre composites. The examined composite systems consist of a simple epoxy matrix and glass fibres representing E and E6CR compositions. The micro-scale properties are analysed with single fibre tensile tests and microbond tests to study the properties of the glass fibres and the fibre/matrix interphase, respectively. The ageing environments examined in the study are deionized water and 1 g/dm3 sulphuric acid at elevated temperatures. The high-throughput testing equipment enables large series of samples: a total of 220 single-fibre tensile tests and 425 microbond tests were performed for this study. Selected samples were subjected to pyrolysis gas chromatography/mass spectrometry analysis for information about the chemical structures present in the systems. The data from the microbond test was utilised in finite element analysis to analyse the effects varying material properties have on the results. This procedure revealed crucial information of the effects of aqueous environment ageing and the viability of the microbond test as an experimental characterization method in glass fibre reinforced composites.",
keywords = "Accelerated ageing, Composite, Microbond, Finite element method (FEM), environmental resistance",
author = "Pekka Laurikainen and Sandra P{\"o}tz and Jarno Jokinen and {Essen von}, Mathias and Mari Lindgren and Pasi Kallio and Mikko Kanerva and Gernot Oreski and Essi Sarlin",
year = "2018",
month = "6",
language = "English",
isbn = "9781510896932",
booktitle = "Proceedings of the 18th European Conference on Composite Materials (ECCM)",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - High throughput mechanical micro-scale characterization of composites and the utilization of the results in finite element analysis

AU - Laurikainen, Pekka

AU - Pötz, Sandra

AU - Jokinen, Jarno

AU - Essen von, Mathias

AU - Lindgren, Mari

AU - Kallio, Pasi

AU - Kanerva, Mikko

AU - Oreski, Gernot

AU - Sarlin, Essi

PY - 2018/6

Y1 - 2018/6

N2 - This study presents preliminary results from the micro-scale behaviour of aged glass fibre composites. The examined composite systems consist of a simple epoxy matrix and glass fibres representing E and E6CR compositions. The micro-scale properties are analysed with single fibre tensile tests and microbond tests to study the properties of the glass fibres and the fibre/matrix interphase, respectively. The ageing environments examined in the study are deionized water and 1 g/dm3 sulphuric acid at elevated temperatures. The high-throughput testing equipment enables large series of samples: a total of 220 single-fibre tensile tests and 425 microbond tests were performed for this study. Selected samples were subjected to pyrolysis gas chromatography/mass spectrometry analysis for information about the chemical structures present in the systems. The data from the microbond test was utilised in finite element analysis to analyse the effects varying material properties have on the results. This procedure revealed crucial information of the effects of aqueous environment ageing and the viability of the microbond test as an experimental characterization method in glass fibre reinforced composites.

AB - This study presents preliminary results from the micro-scale behaviour of aged glass fibre composites. The examined composite systems consist of a simple epoxy matrix and glass fibres representing E and E6CR compositions. The micro-scale properties are analysed with single fibre tensile tests and microbond tests to study the properties of the glass fibres and the fibre/matrix interphase, respectively. The ageing environments examined in the study are deionized water and 1 g/dm3 sulphuric acid at elevated temperatures. The high-throughput testing equipment enables large series of samples: a total of 220 single-fibre tensile tests and 425 microbond tests were performed for this study. Selected samples were subjected to pyrolysis gas chromatography/mass spectrometry analysis for information about the chemical structures present in the systems. The data from the microbond test was utilised in finite element analysis to analyse the effects varying material properties have on the results. This procedure revealed crucial information of the effects of aqueous environment ageing and the viability of the microbond test as an experimental characterization method in glass fibre reinforced composites.

KW - Accelerated ageing

KW - Composite

KW - Microbond

KW - Finite element method (FEM)

KW - environmental resistance

UR - https://pcoconvin.eventsair.com/QuickEventWebsitePortal/eccm/program/Agenda/AgendaItemDetail?id=43f39ed4-be2b-4308-9742-d40d9223daba

UR - http://www.proceedings.com/51509.html

M3 - Conference contribution

SN - 9781510896932

BT - Proceedings of the 18th European Conference on Composite Materials (ECCM)

ER -